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Cyril and Methodius University (UKIM) (Univerzitet "Sv. 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style="width: 100%;"><div class="u-taCenter"></div><div class="profile--tab_content_container js-tab-pane tab-pane active" id="all"><div class="profile--tab_heading_container js-section-heading" data-section="Papers" id="Papers"><h3 class="profile--tab_heading_container">Papers by Dermot Diamond</h3></div><div class="js-work-strip profile--work_container" data-work-id="45087840"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/45087840/COMMON_SENSE_Cost_Effective_Sensors_Interoperable_With_International_Existing_Ocean_Observing_Systems_To_Meet_EU_Policies_Requirements_Cliona_Ni_Cheallachain"><img alt="Research paper thumbnail of COMMON SENSE Cost-Effective Sensors, Interoperable With International Existing Ocean Observing Systems, To Meet EU Policies Requirements Cliona Ni Cheallachain" class="work-thumbnail" src="https://attachments.academia-assets.com/65648479/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/45087840/COMMON_SENSE_Cost_Effective_Sensors_Interoperable_With_International_Existing_Ocean_Observing_Systems_To_Meet_EU_Policies_Requirements_Cliona_Ni_Cheallachain">COMMON SENSE Cost-Effective Sensors, Interoperable With International Existing Ocean Observing Systems, To Meet EU Policies Requirements Cliona Ni Cheallachain</a></div><div class="wp-workCard_item wp-workCard--coauthors"><span>by </span><span><a class="" data-click-track="profile-work-strip-authors" href="https://ukim-mk.academia.edu/AnitaGrozdanov">Anita Grozdanov</a>, <a class="" data-click-track="profile-work-strip-authors" href="https://independent.academia.edu/FabioConfalonieri">Fabio Confalonieri</a>, and <a class="" data-click-track="profile-work-strip-authors" href="https://dcu.academia.edu/DermotDiamond">Dermot Diamond</a></span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">COMMON SENSE is a new project that supports the implementation of European Union marine policies ...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">COMMON SENSE is a new project that supports the implementation of European Union marine policies such as the Marine Strategy Framework Directive (MSFD) and the Common Fisheries Policy (CFP). The project, which was launched in November 2013, is funded by the EC Seventh Framework Programme (FP7) and has been designed to directly respond to requests for integrated and effective data acquisition systems by developing innovative sensors that will contribute to our understanding of how the marine environment functions. COMMON SENSE is coordinated by the Leitat Technological Centre, Spain, and its consortium brings together 15 partners from seven different countries, encompassing a wide range of technical expertise and know-how in the marine monitoring area.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="43792cfb07ca6dcd268bf7ac22c43280" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":65648479,"asset_id":45087840,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/65648479/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="45087840"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="45087840"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 45087840; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=45087840]").text(description); $(".js-view-count[data-work-id=45087840]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 45087840; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='45087840']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 45087840, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "43792cfb07ca6dcd268bf7ac22c43280" } } $('.js-work-strip[data-work-id=45087840]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":45087840,"title":"COMMON SENSE Cost-Effective Sensors, Interoperable With International Existing Ocean Observing Systems, To Meet EU Policies Requirements Cliona Ni Cheallachain","translated_title":"","metadata":{"abstract":"COMMON SENSE is a new project that supports the implementation of European Union marine policies such as the Marine Strategy Framework Directive (MSFD) and the Common Fisheries Policy (CFP). 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The complete system incorporates a microdialysis probe for intravascular monitoring in an ex vivo mini-shunt arrangement, and a silicon micromachined stack with incorporated miniaturised flow cell/sensor array. The prototype device has been developed based on state-of-the-art membrane and printed circuit board technology. The flow-through detection system is based on a three-dimensional flow circuit incorporating silicon chips with stacked micromachined channels. An integrated biosensor array (comprising enzyme sensors specific for glucose and lactate) is placed at the base of the stack allowing the detector to be incorporated within the btTAS assembly. These glucose and lactate biosensors are prepared using photolithographic techniques, with measurement based on the detection of hydrogen peroxide at glucose oxidase and lactate oxidase modified platinum electrodes. The resulting amperometric current (at 500 mV vs. Ag/AgC1) is proportional to the concentration of analyte in the sample. All instrumentation is under computer control and the complete unit allows continuous on-line monitoring of glucose and lactate, with fast stable signals over the relevant physiological range for both analytes. The microdialysis system provides 100% sampling efficiency. Sensor performance studies undertaken include optimisation of sensitivity, linearity, operational stability, background current, storage stability and hydration time. The total system (sampling and detection) response time is of the order of 4 min, with sensor sensitivity 1-5 nA mM -1 for glucose and lactate over the range 0.1-35 and 0.05-15 mM, respectively.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="d486567233a9b330f4f413578b462294" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":43013193,"asset_id":22385673,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/43013193/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="22385673"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="22385673"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 22385673; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=22385673]").text(description); $(".js-view-count[data-work-id=22385673]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 22385673; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='22385673']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 22385673, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "d486567233a9b330f4f413578b462294" } } $('.js-work-strip[data-work-id=22385673]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":22385673,"title":"Design and development of a miniaturised total chemical analysis system for on-line lactate and glucose monitoring in biological samples","translated_title":"","metadata":{"grobid_abstract":"A miniaturised Total chemical Analysis System (~tTAS) for glucose and lactate measurement in biological samples constructed based on an integrated microdialysis sampling and detection system. 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The complete system incorporates a microdialysis probe for intravascular monitoring in an ex vivo mini-shunt arrangement, and a silicon micromachined stack with incorporated miniaturised flow cell/sensor array. The prototype device has been developed based on state-of-the-art membrane and printed circuit board technology. The flow-through detection system is based on a three-dimensional flow circuit incorporating silicon chips with stacked micromachined channels. An integrated biosensor array (comprising enzyme sensors specific for glucose and lactate) is placed at the base of the stack allowing the detector to be incorporated within the btTAS assembly. These glucose and lactate biosensors are prepared using photolithographic techniques, with measurement based on the detection of hydrogen peroxide at glucose oxidase and lactate oxidase modified platinum electrodes. The resulting amperometric current (at 500 mV vs. Ag/AgC1) is proportional to the concentration of analyte in the sample. All instrumentation is under computer control and the complete unit allows continuous on-line monitoring of glucose and lactate, with fast stable signals over the relevant physiological range for both analytes. The microdialysis system provides 100% sampling efficiency. Sensor performance studies undertaken include optimisation of sensitivity, linearity, operational stability, background current, storage stability and hydration time. The total system (sampling and detection) response time is of the order of 4 min, with sensor sensitivity 1-5 nA mM -1 for glucose and lactate over the range 0.1-35 and 0.05-15 mM, respectively.","owner":{"id":43847318,"first_name":"Gerald","middle_initials":null,"last_name":"Urban","page_name":"GeraldUrban","domain_name":"uni-freiburg","created_at":"2016-02-24T07:02:36.252-08:00","display_name":"Gerald Urban","url":"https://uni-freiburg.academia.edu/GeraldUrban"},"attachments":[{"id":43013193,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/43013193/thumbnails/1.jpg","file_name":"s0003-2670_2897_2990075-1.pdf20160224-8696-19m6d5v","download_url":"https://www.academia.edu/attachments/43013193/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Design_and_development_of_a_miniaturised.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/43013193/s0003-2670_2897_2990075-1-libre.pdf20160224-8696-19m6d5v?1456328237=\u0026response-content-disposition=attachment%3B+filename%3DDesign_and_development_of_a_miniaturised.pdf\u0026Expires=1738379613\u0026Signature=FV6BHDY4wb48YcUG9wFusUSt2G7FV3u~J2uSFUL1SRdTjw9y-415KfekJi3LK5Jafr9sFnWh~Ol16idnaq4jY4Zx5WSRvXrk0ZQtOSB37y1fT-sP7xdjNGA-U2nj2CODArCcFCPCtwFIiG3tR6W~8wz06AcI4X1ifL12VCMa6~ja70JcE5ps-~2pHr0zYguBNIzxuuVbw1VaToaHtsjwqXYHuXyRGLuD-3mVAX2z3uKlQ45Ng8ez2EAc3mbEESX57qcQ-DIG0dLEoE33uqt92-yGw-UrlpcgUT6TcexYL8i11hKHmwJJy5c2jFcBJZOOqDuoN~vlfgG~G1pWcb0Mwg__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"research_interests":[{"id":524,"name":"Analytical Chemistry","url":"https://www.academia.edu/Documents/in/Analytical_Chemistry"},{"id":89056,"name":"Printed Circuit Board","url":"https://www.academia.edu/Documents/in/Printed_Circuit_Board"},{"id":168891,"name":"Chemical Analysis","url":"https://www.academia.edu/Documents/in/Chemical_Analysis"},{"id":231661,"name":"Enzyme","url":"https://www.academia.edu/Documents/in/Enzyme"},{"id":274826,"name":"Hydrogen Peroxide","url":"https://www.academia.edu/Documents/in/Hydrogen_Peroxide"},{"id":361921,"name":"Computer Control","url":"https://www.academia.edu/Documents/in/Computer_Control"},{"id":413487,"name":"Design and Development","url":"https://www.academia.edu/Documents/in/Design_and_Development"},{"id":504035,"name":"Three Dimensional","url":"https://www.academia.edu/Documents/in/Three_Dimensional"},{"id":595034,"name":"Sensor Array","url":"https://www.academia.edu/Documents/in/Sensor_Array"},{"id":2047413,"name":"Glucose Oxidase","url":"https://www.academia.edu/Documents/in/Glucose_Oxidase"}],"urls":[]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447251"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/21447251/Recent_Progress_in_Disposable_Ion_Selective_Sensors_for_Environmental_Applications"><img alt="Research paper thumbnail of Recent Progress in Disposable Ion-Selective Sensors for Environmental Applications" class="work-thumbnail" src="https://attachments.academia-assets.com/41881173/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/21447251/Recent_Progress_in_Disposable_Ion_Selective_Sensors_for_Environmental_Applications">Recent Progress in Disposable Ion-Selective Sensors for Environmental Applications</a></div><div class="wp-workCard_item"><span>Advances in Science and Technology</span><span>, Jan 13, 2013</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Solid-contact Ion Selective Electrodes (SC-ISEs) for the detection of lead have been prepared on ...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Solid-contact Ion Selective Electrodes (SC-ISEs) for the detection of lead have been prepared on screen-printed substrates in order to produce low-cost, disposable sensors for environmental monitoring. The materials used as solid contact layer, the deposition techniques used, and the layer thickness greatly affects the performance of the sensors. Poly(3-octylthiophene-2,5-diyl) (POT) and poly-3,4-ethylenedioxithiophene (PEDOT) have been employed in this investigation. For sensors prepared with POT, the batch reproducibility depends on the amount drop-cast, i.e., thickness. In case of PEDOT which is grown galvanostatically the trend is more complex and batch reproducibility appears to depend on the current density. In the latter case, both the film thickness and both the degree of overoxidation of the polymer appear to influence sensor reproducibility.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="905a6859f994e7e6e23744f2b5c32271" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881173,"asset_id":21447251,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881173/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447251"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447251"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447251; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447251]").text(description); $(".js-view-count[data-work-id=21447251]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447251; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447251']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447251, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "905a6859f994e7e6e23744f2b5c32271" } } $('.js-work-strip[data-work-id=21447251]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447251,"title":"Recent Progress in Disposable Ion-Selective Sensors for Environmental Applications","translated_title":"","metadata":{"grobid_abstract":"Solid-contact Ion Selective Electrodes (SC-ISEs) for the detection of lead have been prepared on screen-printed substrates in order to produce low-cost, disposable sensors for environmental monitoring. The materials used as solid contact layer, the deposition techniques used, and the layer thickness greatly affects the performance of the sensors. Poly(3-octylthiophene-2,5-diyl) (POT) and poly-3,4-ethylenedioxithiophene (PEDOT) have been employed in this investigation. For sensors prepared with POT, the batch reproducibility depends on the amount drop-cast, i.e., thickness. In case of PEDOT which is grown galvanostatically the trend is more complex and batch reproducibility appears to depend on the current density. In the latter case, both the film thickness and both the degree of overoxidation of the polymer appear to influence sensor reproducibility.","publication_date":{"day":13,"month":1,"year":2013,"errors":{}},"publication_name":"Advances in Science and Technology","grobid_abstract_attachment_id":41881173},"translated_abstract":null,"internal_url":"https://www.academia.edu/21447251/Recent_Progress_in_Disposable_Ion_Selective_Sensors_for_Environmental_Applications","translated_internal_url":"","created_at":"2016-02-02T01:55:50.986-08:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":21912681,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[],"downloadable_attachments":[{"id":41881173,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/41881173/thumbnails/1.jpg","file_name":"Recent_Progress_in_Disposable_Ion-Select20160202-14979-1o25wi6.pdf","download_url":"https://www.academia.edu/attachments/41881173/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Recent_Progress_in_Disposable_Ion_Select.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/41881173/Recent_Progress_in_Disposable_Ion-Select20160202-14979-1o25wi6-libre.pdf?1454407127=\u0026response-content-disposition=attachment%3B+filename%3DRecent_Progress_in_Disposable_Ion_Select.pdf\u0026Expires=1738577941\u0026Signature=LJrh0fLPtN-4eWAx4tCQq6bS1E25Ui9m2G2yTYdQijepUV677zV9IWfqdjW-gN0~-xvR0zuX0f~nKqSkobL9V-tiEmAuKJ6-wPQGRF4j-61HO1bYkXc2Vho6xZ4Qr7GdO9qpydq121~hDWcOJZQDIdRo-6u7y2uitq86QUcyQz2o7Tujfft~o7v5izmb2lynPBq374BwJP17DKO10qRgDE4NBXeONZpmd5rQS~NPTYG2ewJHIlSNANvoeESn5J8E8MPVFC9H1iYf4f6uNGj1vKrcv2uamvv-FqEjz-bZPilAv9bgxYmy4UEH6blLSu~vKg49Mo2c4Cy0Jmwlm6~kcw__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"slug":"Recent_Progress_in_Disposable_Ion_Selective_Sensors_for_Environmental_Applications","translated_slug":"","page_count":null,"language":"en","content_type":"Work","summary":"Solid-contact Ion Selective Electrodes (SC-ISEs) for the detection of lead have been prepared on screen-printed substrates in order to produce low-cost, disposable sensors for environmental monitoring. The materials used as solid contact layer, the deposition techniques used, and the layer thickness greatly affects the performance of the sensors. Poly(3-octylthiophene-2,5-diyl) (POT) and poly-3,4-ethylenedioxithiophene (PEDOT) have been employed in this investigation. For sensors prepared with POT, the batch reproducibility depends on the amount drop-cast, i.e., thickness. In case of PEDOT which is grown galvanostatically the trend is more complex and batch reproducibility appears to depend on the current density. In the latter case, both the film thickness and both the degree of overoxidation of the polymer appear to influence sensor reproducibility.","owner":{"id":21912681,"first_name":"Dermot","middle_initials":null,"last_name":"Diamond","page_name":"DermotDiamond","domain_name":"dcu","created_at":"2014-11-20T19:09:34.355-08:00","display_name":"Dermot Diamond","url":"https://dcu.academia.edu/DermotDiamond"},"attachments":[{"id":41881173,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/41881173/thumbnails/1.jpg","file_name":"Recent_Progress_in_Disposable_Ion-Select20160202-14979-1o25wi6.pdf","download_url":"https://www.academia.edu/attachments/41881173/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Recent_Progress_in_Disposable_Ion_Select.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/41881173/Recent_Progress_in_Disposable_Ion-Select20160202-14979-1o25wi6-libre.pdf?1454407127=\u0026response-content-disposition=attachment%3B+filename%3DRecent_Progress_in_Disposable_Ion_Select.pdf\u0026Expires=1738577941\u0026Signature=LJrh0fLPtN-4eWAx4tCQq6bS1E25Ui9m2G2yTYdQijepUV677zV9IWfqdjW-gN0~-xvR0zuX0f~nKqSkobL9V-tiEmAuKJ6-wPQGRF4j-61HO1bYkXc2Vho6xZ4Qr7GdO9qpydq121~hDWcOJZQDIdRo-6u7y2uitq86QUcyQz2o7Tujfft~o7v5izmb2lynPBq374BwJP17DKO10qRgDE4NBXeONZpmd5rQS~NPTYG2ewJHIlSNANvoeESn5J8E8MPVFC9H1iYf4f6uNGj1vKrcv2uamvv-FqEjz-bZPilAv9bgxYmy4UEH6blLSu~vKg49Mo2c4Cy0Jmwlm6~kcw__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"research_interests":[{"id":56,"name":"Materials Engineering","url":"https://www.academia.edu/Documents/in/Materials_Engineering"},{"id":60,"name":"Mechanical Engineering","url":"https://www.academia.edu/Documents/in/Mechanical_Engineering"},{"id":85458,"name":"Conducting Polymer","url":"https://www.academia.edu/Documents/in/Conducting_Polymer"},{"id":416536,"name":"Science Technology","url":"https://www.academia.edu/Documents/in/Science_Technology"}],"urls":[{"id":6302794,"url":"http://www.scientific.net/AST.77.65"},{"id":6302923,"url":"https://www.researchgate.net/profile/Claudio_Zuliani/publication/271980373_Recent_Progress_in_Disposable_Ion-Selective_Sensors_for_Environmental_Applications/links/5500837a0cf2d61f820e0369.pdf"}]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447250"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/21447250/Ionogel_based_light_actuated_valves_for_controlling_liquid_flow_in_micro_fluidic_manifolds"><img alt="Research paper thumbnail of Ionogel-based light-actuated valves for controlling liquid flow in micro-fluidic manifolds" class="work-thumbnail" src="https://attachments.academia-assets.com/41881166/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/21447250/Ionogel_based_light_actuated_valves_for_controlling_liquid_flow_in_micro_fluidic_manifolds">Ionogel-based light-actuated valves for controlling liquid flow in micro-fluidic manifolds</a></div><div class="wp-workCard_item"><span>Benito Lopez Fernando and Byrne Robert and Răduţă Ana Maria and Vrana Nihal Engin and Mcguinness Garrett and Diamond Dermot Ionogel Based Light Actuated Valves For Controlling Liquid Flow in Micro Fluidic Manifolds Lab on a Chip 10 Pp 195 201 Issn 1473 0189</span><span>, Jan 21, 2010</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Novel multifunctional materials based on ionogels have been used as light-actuated valve structur...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Novel multifunctional materials based on ionogels have been used as light-actuated valve structures in micro-fluidic platforms. Through variation of the composition of the ionogels, the micro-valves can be tuned to open at different times under similar illumination conditions.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="e8d112a060066a8a978bcd656d916f06" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881166,"asset_id":21447250,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881166/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447250"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447250"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447250; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447250]").text(description); $(".js-view-count[data-work-id=21447250]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447250; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447250']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447250, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "e8d112a060066a8a978bcd656d916f06" } } $('.js-work-strip[data-work-id=21447250]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447250,"title":"Ionogel-based light-actuated valves for controlling liquid flow in micro-fluidic manifolds","translated_title":"","metadata":{"ai_title_tag":"Light-Activated Ionogel Valves for Microfluidics","grobid_abstract":"Novel multifunctional materials based on ionogels have been used as light-actuated valve structures in micro-fluidic platforms. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447249"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/21447249/Wearable_micro_fluidic_pH_sweat_sensing_device_based_on_colorimetric_imaging_techniques"><img alt="Research paper thumbnail of Wearable micro-fluidic pH sweat sensing device based on colorimetric imaging techniques" class="work-thumbnail" src="https://attachments.academia-assets.com/41881174/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/21447249/Wearable_micro_fluidic_pH_sweat_sensing_device_based_on_colorimetric_imaging_techniques">Wearable micro-fluidic pH sweat sensing device based on colorimetric imaging techniques</a></div><div class="wp-workCard_item"><span>Curto Vincenzo F and Fay Cormac and Coyle Shirley and Byrne Robert and Diamond Dermot and Benito Lopez Fernando Wearable Micro Fluidic Ph Sweat Sensing Device Based on Colorimetric Imaging Techniques in Microtas 2011 Conference 2 6 Oct 2011 Seattle Usa</span><span>, 2011</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">In this paper a wearable electronic-free micro-fluidic device for the continuous monitoring of pH...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">In this paper a wearable electronic-free micro-fluidic device for the continuous monitoring of pH in sweat during exercise is described. The sensing capability is based on ionogels, ionic liquid hydrogels, containing pH sensitive dyes capable of reporting pH activity in the range from 3 to 10. Previously, we reported a flexible micro-fluidic barcode capable of measuring the pH of sweat in real time . Here we have improved the device in terms of wearability, physical robustness, chemistry of the sensor and its optical response by using a mobile phone for data collection and a more accurate algorithm for colorimetric image analysis.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="d4c98e7a9b494fd3eb998c2bb2290f01" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881174,"asset_id":21447249,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881174/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447249"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447249"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447249; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447249]").text(description); $(".js-view-count[data-work-id=21447249]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447249; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447249']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447249, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "d4c98e7a9b494fd3eb998c2bb2290f01" } } $('.js-work-strip[data-work-id=21447249]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447249,"title":"Wearable micro-fluidic pH sweat sensing device based on colorimetric imaging techniques","translated_title":"","metadata":{"ai_title_tag":"Wearable Micro-Fluidic Device for Colorimetric pH Sensing","grobid_abstract":"In this paper a wearable electronic-free micro-fluidic device for the continuous monitoring of pH in sweat during exercise is described. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447246"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" rel="nofollow" href="https://www.academia.edu/21447246/Solid_state_ammonia_sensor_based_on_Berthelot_s_reaction"><img alt="Research paper thumbnail of Solid-state ammonia sensor based on Berthelot�s reaction" class="work-thumbnail" src="https://a.academia-assets.com/images/blank-paper.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" rel="nofollow" href="https://www.academia.edu/21447246/Solid_state_ammonia_sensor_based_on_Berthelot_s_reaction">Solid-state ammonia sensor based on Berthelot�s reaction</a></div><div class="wp-workCard_item"><span>Sensors and Actuators B Chemical</span><span>, Mar 1, 2004</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">A non-reversible solid-state ammonia sensor based on formation of indophenol blue has been develo...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">A non-reversible solid-state ammonia sensor based on formation of indophenol blue has been developed. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447245"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" rel="nofollow" href="https://www.academia.edu/21447245/Photo_responsive_semi_interpetrating_network_hydrogels_based_on_poly_ionic_liquids_and_a_poly_N_Isopropylacrylamide_Spiropyran_Acrylic_Acid_copolymer"><img alt="Research paper thumbnail of Photo-responsive semi-interpetrating network hydrogels based on poly(ionic liquids) and a poly(N-Isopropylacrylamide-Spiropyran-Acrylic Acid) copolymer" class="work-thumbnail" src="https://a.academia-assets.com/images/blank-paper.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" rel="nofollow" href="https://www.academia.edu/21447245/Photo_responsive_semi_interpetrating_network_hydrogels_based_on_poly_ionic_liquids_and_a_poly_N_Isopropylacrylamide_Spiropyran_Acrylic_Acid_copolymer">Photo-responsive semi-interpetrating network hydrogels based on poly(ionic liquids) and a poly(N-Isopropylacrylamide-Spiropyran-Acrylic Acid) copolymer</a></div><div class="wp-workCard_item"><span>Tudor Alexandru and Gallagher Simon and Florea Larisa and Diamond Dermot Photo Responsive Semi Interpetrating Network Hydrogels Based on Poly and a Poly Copolymer in Insight Student Conference 2014 12 Sept 2014 Ucd Dublin Ireland</span><span>, Sep 12, 2014</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447245"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447245"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447245; 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447244"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/21447244/Evaluation_of_a_low_cost_wireless_chemical_sensornetwork_for_environmental_monitoring"><img alt="Research paper thumbnail of Evaluation of a low cost wireless chemical sensornetwork for environmental monitoring" class="work-thumbnail" src="https://attachments.academia-assets.com/41881168/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/21447244/Evaluation_of_a_low_cost_wireless_chemical_sensornetwork_for_environmental_monitoring">Evaluation of a low cost wireless chemical sensornetwork for environmental monitoring</a></div><div class="wp-workCard_item"><span>Hayes Jer and Beirne Stephen and Lau King Tong and Diamond Dermot Evaluation of a Low Cost Wireless Chemical Sensor Network For Environmental Monitoring in Ieee Sensors 2008 26 29 October 2008 Lecce Italy</span><span>, Oct 27, 2008</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">We present work on the development and testing of a low-cost wireless chemical sensor network (WC...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">We present work on the development and testing of a low-cost wireless chemical sensor network (WCSN) for monitoring irritant/toxic gases in the environment. The WCSN used in this work takes advantage of recent advances in low power wireless communication platforms and uses colorimetric sensors to detect the presence of certain target gases. This sensor network adopts a star configuration and performs one way RF communications from individual sensor nodes to the base-station. Each node in the network is composed of a multiple sensor platform that measures light intensity, temperature and motion. The light sensor was used as the chemical sensing platform in such a way that the node is housed in a specially constructed sealed container that has a colorimetric chemical sensing film coated PMMA window aperture directly above the light sensor. The light intensity reaching the light sensor is modulated by changes in the colour of the sensing film and such changes indicate the presence of chemical plumes.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="0533b7fd50c86d9c57fdb1093d3d25b6" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881168,"asset_id":21447244,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881168/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447244"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447244"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447244; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447244]").text(description); $(".js-view-count[data-work-id=21447244]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447244; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447244']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447244, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "0533b7fd50c86d9c57fdb1093d3d25b6" } } $('.js-work-strip[data-work-id=21447244]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447244,"title":"Evaluation of a low cost wireless chemical sensornetwork for environmental monitoring","translated_title":"","metadata":{"grobid_abstract":"We present work on the development and testing of a low-cost wireless chemical sensor network (WCSN) for monitoring irritant/toxic gases in the environment. The WCSN used in this work takes advantage of recent advances in low power wireless communication platforms and uses colorimetric sensors to detect the presence of certain target gases. This sensor network adopts a star configuration and performs one way RF communications from individual sensor nodes to the base-station. Each node in the network is composed of a multiple sensor platform that measures light intensity, temperature and motion. The light sensor was used as the chemical sensing platform in such a way that the node is housed in a specially constructed sealed container that has a colorimetric chemical sensing film coated PMMA window aperture directly above the light sensor. The light intensity reaching the light sensor is modulated by changes in the colour of the sensing film and such changes indicate the presence of chemical plumes.","publication_date":{"day":27,"month":10,"year":2008,"errors":{}},"publication_name":"Hayes Jer and Beirne Stephen and Lau King Tong and Diamond Dermot Evaluation of a Low Cost Wireless Chemical Sensor Network For Environmental Monitoring in Ieee Sensors 2008 26 29 October 2008 Lecce Italy","grobid_abstract_attachment_id":41881168},"translated_abstract":null,"internal_url":"https://www.academia.edu/21447244/Evaluation_of_a_low_cost_wireless_chemical_sensornetwork_for_environmental_monitoring","translated_internal_url":"","created_at":"2016-02-02T01:55:48.482-08:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":21912681,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[],"downloadable_attachments":[{"id":41881168,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/41881168/thumbnails/1.jpg","file_name":"Evaluation_of_a_low_cost_wireless_chemic20160202-20424-1hzm4m6.pdf","download_url":"https://www.academia.edu/attachments/41881168/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Evaluation_of_a_low_cost_wireless_chemic.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/41881168/Evaluation_of_a_low_cost_wireless_chemic20160202-20424-1hzm4m6-libre.pdf?1454407126=\u0026response-content-disposition=attachment%3B+filename%3DEvaluation_of_a_low_cost_wireless_chemic.pdf\u0026Expires=1738577941\u0026Signature=CiLxnZR5CrUdFN2s4zJsOLW6MdO1~pYUk7Jj2NZ2py1ps4UFD9dPZ5x~wwEVI-WP31H84xLlBBlUWRYZIk~MlRfxoqMbUSijKGFK3RmWwu1euz7p3Gv4FOpdmH9nA65uHBQtOsBYGfBD-H3VUP~t0WcrBR7OQojTAPVIAQG9SMjJ7tYFptX6hnM9yU2EtWZzeOEDToaAzbeGBocGOXQDqNj316oR3zCkrV0bgjTqVyBo7Ief6rg0sn0X0ScmmJHG8ZzTIcbbEyhKB~42cZmv5HQT2TL9jX44F1GiwHMeDv1v7K5xOsOW8BmujeMztZMKo5tGz1TbYS7KTAkb18h7IQ__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"slug":"Evaluation_of_a_low_cost_wireless_chemical_sensornetwork_for_environmental_monitoring","translated_slug":"","page_count":4,"language":"en","content_type":"Work","summary":"We present work on the development and testing of a low-cost wireless chemical sensor network (WCSN) for monitoring irritant/toxic gases in the environment. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447243"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" rel="nofollow" href="https://www.academia.edu/21447243/Ionogel_biosensor_novel_ionogels_based_on_ionic_liquids_as_a_platform_to_measure_enzyme_activity_of_glucose_oxdase_in_real_time"><img alt="Research paper thumbnail of Ionogel-biosensor: novel ionogels based on ionic liquids as a platform to measure enzyme activity of glucose oxdase in real time" class="work-thumbnail" src="https://a.academia-assets.com/images/blank-paper.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" rel="nofollow" href="https://www.academia.edu/21447243/Ionogel_biosensor_novel_ionogels_based_on_ionic_liquids_as_a_platform_to_measure_enzyme_activity_of_glucose_oxdase_in_real_time">Ionogel-biosensor: novel ionogels based on ionic liquids as a platform to measure enzyme activity of glucose oxdase in real time</a></div><div class="wp-workCard_item"><span>Barry Caroline and Byrne Robert and Benito Lopez Fernando and Diamond Dermot Ionogel Biosensor Novel Ionogels Based on Ionic Liquids As a Platform to Measure Enzyme Activity of Glucose Oxdase in Real Time in E Mrs 2010 Spring Meeting 7 11 June 2010 Strasbourg France</span><span>, 2010</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">ABSTRACT It is estimated that there are 170 million diabetics worldwide, and the number continues...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">ABSTRACT It is estimated that there are 170 million diabetics worldwide, and the number continues to rise alarmingly. The management of diabetes is therefore critical to future society, and this is driving demand for point-of-care (POC) glucose biosensors, and they play a central role in the management blood sugar levels in patients with diabetes. Glucose Oxidase (GOx) is a biorecognition enzyme, which recognises the glucose molecule and acts as a catalyst to produce gluconic acid and hydrogen peroxide in the presence of glucose and oxygen.[1] Ionic Liquids are organic salts, which are liquid at ambient temperature. Their non-volatile character and thermal stability makes them an attractive alternative to conventional organic solvents. We are interested in studying the characteristics of GOx in ionic liquids, and in polymer materials incorporating ionic liquids known as ionogels. Herein we report the enzyme activity of GOx in a biosensor fabricated using a novel hybrid ionogel. This approach potentially offers several advantages over conventional materials. For example, the ionogels can be chemically and physically tailored for a particular requirement. [3] The design of these ionogels ensures that the enzyme is effectively retained in the polymer, thus preventing leaching. The ionogel-biosensor has been incorporated into a compact, portable and low cost device, which allows the real time monitoring of enzyme activity of GOx. Based on this model, we project that this device will provide the platform for measuring the enzyme activity of a wide range of enzymes.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447243"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447243"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447243; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447243]").text(description); $(".js-view-count[data-work-id=21447243]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447243; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447243']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447243, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (false){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "-1" } } $('.js-work-strip[data-work-id=21447243]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447243,"title":"Ionogel-biosensor: novel ionogels based on ionic liquids as a platform to measure enzyme activity of glucose oxdase in real time","translated_title":"","metadata":{"abstract":"ABSTRACT It is estimated that there are 170 million diabetics worldwide, and the number continues to rise alarmingly. The management of diabetes is therefore critical to future society, and this is driving demand for point-of-care (POC) glucose biosensors, and they play a central role in the management blood sugar levels in patients with diabetes. Glucose Oxidase (GOx) is a biorecognition enzyme, which recognises the glucose molecule and acts as a catalyst to produce gluconic acid and hydrogen peroxide in the presence of glucose and oxygen.[1] Ionic Liquids are organic salts, which are liquid at ambient temperature. Their non-volatile character and thermal stability makes them an attractive alternative to conventional organic solvents. We are interested in studying the characteristics of GOx in ionic liquids, and in polymer materials incorporating ionic liquids known as ionogels. Herein we report the enzyme activity of GOx in a biosensor fabricated using a novel hybrid ionogel. This approach potentially offers several advantages over conventional materials. For example, the ionogels can be chemically and physically tailored for a particular requirement. [3] The design of these ionogels ensures that the enzyme is effectively retained in the polymer, thus preventing leaching. The ionogel-biosensor has been incorporated into a compact, portable and low cost device, which allows the real time monitoring of enzyme activity of GOx. 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The management of diabetes is therefore critical to future society, and this is driving demand for point-of-care (POC) glucose biosensors, and they play a central role in the management blood sugar levels in patients with diabetes. Glucose Oxidase (GOx) is a biorecognition enzyme, which recognises the glucose molecule and acts as a catalyst to produce gluconic acid and hydrogen peroxide in the presence of glucose and oxygen.[1] Ionic Liquids are organic salts, which are liquid at ambient temperature. Their non-volatile character and thermal stability makes them an attractive alternative to conventional organic solvents. We are interested in studying the characteristics of GOx in ionic liquids, and in polymer materials incorporating ionic liquids known as ionogels. Herein we report the enzyme activity of GOx in a biosensor fabricated using a novel hybrid ionogel. This approach potentially offers several advantages over conventional materials. For example, the ionogels can be chemically and physically tailored for a particular requirement. [3] The design of these ionogels ensures that the enzyme is effectively retained in the polymer, thus preventing leaching. The ionogel-biosensor has been incorporated into a compact, portable and low cost device, which allows the real time monitoring of enzyme activity of GOx. Based on this model, we project that this device will provide the platform for measuring the enzyme activity of a wide range of enzymes.","owner":{"id":21912681,"first_name":"Dermot","middle_initials":null,"last_name":"Diamond","page_name":"DermotDiamond","domain_name":"dcu","created_at":"2014-11-20T19:09:34.355-08:00","display_name":"Dermot Diamond","url":"https://dcu.academia.edu/DermotDiamond"},"attachments":[],"research_interests":[{"id":523,"name":"Chemistry","url":"https://www.academia.edu/Documents/in/Chemistry"}],"urls":[{"id":6302786,"url":"http://doras.dcu.ie/15417/"}]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447242"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/21447242/5_6_Dichloro_1_3_3_trimethylspiro_2_H_1_benzopyran_2_2_indoline_"><img alt="Research paper thumbnail of 5',6-Dichloro-1',3',3'-trimethylspiro[2 H -1-benzopyran-2,2'-indoline]" class="work-thumbnail" src="https://attachments.academia-assets.com/41881167/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/21447242/5_6_Dichloro_1_3_3_trimethylspiro_2_H_1_benzopyran_2_2_indoline_">5',6-Dichloro-1',3',3'-trimethylspiro[2 H -1-benzopyran-2,2'-indoline]</a></div><div class="wp-workCard_item"><span>Acta Crystallogr E Struct Rep</span><span>, 2008</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Key indicators: single-crystal X-ray study; T = 100 K; mean (C-C) = 0.002 Å; R factor = 0.047; wR...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Key indicators: single-crystal X-ray study; T = 100 K; mean (C-C) = 0.002 Å; R factor = 0.047; wR factor = 0.123; data-to-parameter ratio = 15.6.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="7f5694fd7f9ec430d1ea60ed7eaf5092" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881167,"asset_id":21447242,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881167/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447242"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447242"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447242; 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447241"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" rel="nofollow" href="https://www.academia.edu/21447241/Microfluidic_device_for_colorimetric_analysis_of_sweat"><img alt="Research paper thumbnail of Microfluidic device for colorimetric analysis of sweat" class="work-thumbnail" src="https://a.academia-assets.com/images/blank-paper.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" rel="nofollow" href="https://www.academia.edu/21447241/Microfluidic_device_for_colorimetric_analysis_of_sweat">Microfluidic device for colorimetric analysis of sweat</a></div><div class="wp-workCard_item"><span>Curto Vincenzo F and Fay Cormac and Coyle Shirley and Diamond Dermot Microfluidic Device For Colorimetric Analysis of Sweat in Body Sensor Network 2012 10 13 May 2012 London Uk</span><span>, May 10, 2012</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447241"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447241"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447241; 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> </div><div class="profile--tab_content_container js-tab-pane tab-pane" data-section-id="2172030" id="papers"><div class="js-work-strip profile--work_container" data-work-id="45087840"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/45087840/COMMON_SENSE_Cost_Effective_Sensors_Interoperable_With_International_Existing_Ocean_Observing_Systems_To_Meet_EU_Policies_Requirements_Cliona_Ni_Cheallachain"><img alt="Research paper thumbnail of COMMON SENSE Cost-Effective Sensors, Interoperable With International Existing Ocean Observing Systems, To Meet EU Policies Requirements Cliona Ni Cheallachain" class="work-thumbnail" src="https://attachments.academia-assets.com/65648479/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/45087840/COMMON_SENSE_Cost_Effective_Sensors_Interoperable_With_International_Existing_Ocean_Observing_Systems_To_Meet_EU_Policies_Requirements_Cliona_Ni_Cheallachain">COMMON SENSE Cost-Effective Sensors, Interoperable With International Existing Ocean Observing Systems, To Meet EU Policies Requirements Cliona Ni Cheallachain</a></div><div class="wp-workCard_item wp-workCard--coauthors"><span>by </span><span><a class="" data-click-track="profile-work-strip-authors" href="https://ukim-mk.academia.edu/AnitaGrozdanov">Anita Grozdanov</a>, <a class="" data-click-track="profile-work-strip-authors" href="https://independent.academia.edu/FabioConfalonieri">Fabio Confalonieri</a>, and <a class="" data-click-track="profile-work-strip-authors" href="https://dcu.academia.edu/DermotDiamond">Dermot Diamond</a></span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">COMMON SENSE is a new project that supports the implementation of European Union marine policies ...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">COMMON SENSE is a new project that supports the implementation of European Union marine policies such as the Marine Strategy Framework Directive (MSFD) and the Common Fisheries Policy (CFP). The project, which was launched in November 2013, is funded by the EC Seventh Framework Programme (FP7) and has been designed to directly respond to requests for integrated and effective data acquisition systems by developing innovative sensors that will contribute to our understanding of how the marine environment functions. COMMON SENSE is coordinated by the Leitat Technological Centre, Spain, and its consortium brings together 15 partners from seven different countries, encompassing a wide range of technical expertise and know-how in the marine monitoring area.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="43792cfb07ca6dcd268bf7ac22c43280" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":65648479,"asset_id":45087840,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/65648479/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="45087840"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="45087840"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 45087840; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=45087840]").text(description); $(".js-view-count[data-work-id=45087840]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 45087840; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='45087840']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 45087840, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "43792cfb07ca6dcd268bf7ac22c43280" } } $('.js-work-strip[data-work-id=45087840]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":45087840,"title":"COMMON SENSE Cost-Effective Sensors, Interoperable With International Existing Ocean Observing Systems, To Meet EU Policies Requirements Cliona Ni Cheallachain","translated_title":"","metadata":{"abstract":"COMMON SENSE is a new project that supports the implementation of European Union marine policies such as the Marine Strategy Framework Directive (MSFD) and the Common Fisheries Policy (CFP). 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The complete system incorporates a microdialysis probe for intravascular monitoring in an ex vivo mini-shunt arrangement, and a silicon micromachined stack with incorporated miniaturised flow cell/sensor array. The prototype device has been developed based on state-of-the-art membrane and printed circuit board technology. The flow-through detection system is based on a three-dimensional flow circuit incorporating silicon chips with stacked micromachined channels. An integrated biosensor array (comprising enzyme sensors specific for glucose and lactate) is placed at the base of the stack allowing the detector to be incorporated within the btTAS assembly. These glucose and lactate biosensors are prepared using photolithographic techniques, with measurement based on the detection of hydrogen peroxide at glucose oxidase and lactate oxidase modified platinum electrodes. The resulting amperometric current (at 500 mV vs. Ag/AgC1) is proportional to the concentration of analyte in the sample. All instrumentation is under computer control and the complete unit allows continuous on-line monitoring of glucose and lactate, with fast stable signals over the relevant physiological range for both analytes. The microdialysis system provides 100% sampling efficiency. Sensor performance studies undertaken include optimisation of sensitivity, linearity, operational stability, background current, storage stability and hydration time. The total system (sampling and detection) response time is of the order of 4 min, with sensor sensitivity 1-5 nA mM -1 for glucose and lactate over the range 0.1-35 and 0.05-15 mM, respectively.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="d486567233a9b330f4f413578b462294" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":43013193,"asset_id":22385673,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/43013193/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="22385673"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="22385673"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 22385673; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=22385673]").text(description); $(".js-view-count[data-work-id=22385673]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 22385673; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='22385673']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 22385673, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "d486567233a9b330f4f413578b462294" } } $('.js-work-strip[data-work-id=22385673]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":22385673,"title":"Design and development of a miniaturised total chemical analysis system for on-line lactate and glucose monitoring in biological samples","translated_title":"","metadata":{"grobid_abstract":"A miniaturised Total chemical Analysis System (~tTAS) for glucose and lactate measurement in biological samples constructed based on an integrated microdialysis sampling and detection system. 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The materials used as solid contact layer, the deposition techniques used, and the layer thickness greatly affects the performance of the sensors. Poly(3-octylthiophene-2,5-diyl) (POT) and poly-3,4-ethylenedioxithiophene (PEDOT) have been employed in this investigation. For sensors prepared with POT, the batch reproducibility depends on the amount drop-cast, i.e., thickness. In case of PEDOT which is grown galvanostatically the trend is more complex and batch reproducibility appears to depend on the current density. In the latter case, both the film thickness and both the degree of overoxidation of the polymer appear to influence sensor reproducibility.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="905a6859f994e7e6e23744f2b5c32271" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881173,"asset_id":21447251,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881173/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447251"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447251"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447251; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447251]").text(description); $(".js-view-count[data-work-id=21447251]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447251; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447251']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447251, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "905a6859f994e7e6e23744f2b5c32271" } } $('.js-work-strip[data-work-id=21447251]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447251,"title":"Recent Progress in Disposable Ion-Selective Sensors for Environmental Applications","translated_title":"","metadata":{"grobid_abstract":"Solid-contact Ion Selective Electrodes (SC-ISEs) for the detection of lead have been prepared on screen-printed substrates in order to produce low-cost, disposable sensors for environmental monitoring. 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In the latter case, both the film thickness and both the degree of overoxidation of the polymer appear to influence sensor reproducibility.","publication_date":{"day":13,"month":1,"year":2013,"errors":{}},"publication_name":"Advances in Science and Technology","grobid_abstract_attachment_id":41881173},"translated_abstract":null,"internal_url":"https://www.academia.edu/21447251/Recent_Progress_in_Disposable_Ion_Selective_Sensors_for_Environmental_Applications","translated_internal_url":"","created_at":"2016-02-02T01:55:50.986-08:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":21912681,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[],"downloadable_attachments":[{"id":41881173,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/41881173/thumbnails/1.jpg","file_name":"Recent_Progress_in_Disposable_Ion-Select20160202-14979-1o25wi6.pdf","download_url":"https://www.academia.edu/attachments/41881173/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Recent_Progress_in_Disposable_Ion_Select.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/41881173/Recent_Progress_in_Disposable_Ion-Select20160202-14979-1o25wi6-libre.pdf?1454407127=\u0026response-content-disposition=attachment%3B+filename%3DRecent_Progress_in_Disposable_Ion_Select.pdf\u0026Expires=1738577941\u0026Signature=LJrh0fLPtN-4eWAx4tCQq6bS1E25Ui9m2G2yTYdQijepUV677zV9IWfqdjW-gN0~-xvR0zuX0f~nKqSkobL9V-tiEmAuKJ6-wPQGRF4j-61HO1bYkXc2Vho6xZ4Qr7GdO9qpydq121~hDWcOJZQDIdRo-6u7y2uitq86QUcyQz2o7Tujfft~o7v5izmb2lynPBq374BwJP17DKO10qRgDE4NBXeONZpmd5rQS~NPTYG2ewJHIlSNANvoeESn5J8E8MPVFC9H1iYf4f6uNGj1vKrcv2uamvv-FqEjz-bZPilAv9bgxYmy4UEH6blLSu~vKg49Mo2c4Cy0Jmwlm6~kcw__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"slug":"Recent_Progress_in_Disposable_Ion_Selective_Sensors_for_Environmental_Applications","translated_slug":"","page_count":null,"language":"en","content_type":"Work","summary":"Solid-contact Ion Selective Electrodes (SC-ISEs) for the detection of lead have been prepared on screen-printed substrates in order to produce low-cost, disposable sensors for environmental monitoring. The materials used as solid contact layer, the deposition techniques used, and the layer thickness greatly affects the performance of the sensors. Poly(3-octylthiophene-2,5-diyl) (POT) and poly-3,4-ethylenedioxithiophene (PEDOT) have been employed in this investigation. For sensors prepared with POT, the batch reproducibility depends on the amount drop-cast, i.e., thickness. In case of PEDOT which is grown galvanostatically the trend is more complex and batch reproducibility appears to depend on the current density. In the latter case, both the film thickness and both the degree of overoxidation of the polymer appear to influence sensor reproducibility.","owner":{"id":21912681,"first_name":"Dermot","middle_initials":null,"last_name":"Diamond","page_name":"DermotDiamond","domain_name":"dcu","created_at":"2014-11-20T19:09:34.355-08:00","display_name":"Dermot Diamond","url":"https://dcu.academia.edu/DermotDiamond"},"attachments":[{"id":41881173,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/41881173/thumbnails/1.jpg","file_name":"Recent_Progress_in_Disposable_Ion-Select20160202-14979-1o25wi6.pdf","download_url":"https://www.academia.edu/attachments/41881173/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Recent_Progress_in_Disposable_Ion_Select.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/41881173/Recent_Progress_in_Disposable_Ion-Select20160202-14979-1o25wi6-libre.pdf?1454407127=\u0026response-content-disposition=attachment%3B+filename%3DRecent_Progress_in_Disposable_Ion_Select.pdf\u0026Expires=1738577941\u0026Signature=LJrh0fLPtN-4eWAx4tCQq6bS1E25Ui9m2G2yTYdQijepUV677zV9IWfqdjW-gN0~-xvR0zuX0f~nKqSkobL9V-tiEmAuKJ6-wPQGRF4j-61HO1bYkXc2Vho6xZ4Qr7GdO9qpydq121~hDWcOJZQDIdRo-6u7y2uitq86QUcyQz2o7Tujfft~o7v5izmb2lynPBq374BwJP17DKO10qRgDE4NBXeONZpmd5rQS~NPTYG2ewJHIlSNANvoeESn5J8E8MPVFC9H1iYf4f6uNGj1vKrcv2uamvv-FqEjz-bZPilAv9bgxYmy4UEH6blLSu~vKg49Mo2c4Cy0Jmwlm6~kcw__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"research_interests":[{"id":56,"name":"Materials Engineering","url":"https://www.academia.edu/Documents/in/Materials_Engineering"},{"id":60,"name":"Mechanical Engineering","url":"https://www.academia.edu/Documents/in/Mechanical_Engineering"},{"id":85458,"name":"Conducting Polymer","url":"https://www.academia.edu/Documents/in/Conducting_Polymer"},{"id":416536,"name":"Science Technology","url":"https://www.academia.edu/Documents/in/Science_Technology"}],"urls":[{"id":6302794,"url":"http://www.scientific.net/AST.77.65"},{"id":6302923,"url":"https://www.researchgate.net/profile/Claudio_Zuliani/publication/271980373_Recent_Progress_in_Disposable_Ion-Selective_Sensors_for_Environmental_Applications/links/5500837a0cf2d61f820e0369.pdf"}]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447250"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/21447250/Ionogel_based_light_actuated_valves_for_controlling_liquid_flow_in_micro_fluidic_manifolds"><img alt="Research paper thumbnail of Ionogel-based light-actuated valves for controlling liquid flow in micro-fluidic manifolds" class="work-thumbnail" src="https://attachments.academia-assets.com/41881166/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/21447250/Ionogel_based_light_actuated_valves_for_controlling_liquid_flow_in_micro_fluidic_manifolds">Ionogel-based light-actuated valves for controlling liquid flow in micro-fluidic manifolds</a></div><div class="wp-workCard_item"><span>Benito Lopez Fernando and Byrne Robert and Răduţă Ana Maria and Vrana Nihal Engin and Mcguinness Garrett and Diamond Dermot Ionogel Based Light Actuated Valves For Controlling Liquid Flow in Micro Fluidic Manifolds Lab on a Chip 10 Pp 195 201 Issn 1473 0189</span><span>, Jan 21, 2010</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Novel multifunctional materials based on ionogels have been used as light-actuated valve structur...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Novel multifunctional materials based on ionogels have been used as light-actuated valve structures in micro-fluidic platforms. Through variation of the composition of the ionogels, the micro-valves can be tuned to open at different times under similar illumination conditions.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="e8d112a060066a8a978bcd656d916f06" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881166,"asset_id":21447250,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881166/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447250"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447250"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447250; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447250]").text(description); $(".js-view-count[data-work-id=21447250]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447250; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447250']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447250, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "e8d112a060066a8a978bcd656d916f06" } } $('.js-work-strip[data-work-id=21447250]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447250,"title":"Ionogel-based light-actuated valves for controlling liquid flow in micro-fluidic manifolds","translated_title":"","metadata":{"ai_title_tag":"Light-Activated Ionogel Valves for Microfluidics","grobid_abstract":"Novel multifunctional materials based on ionogels have been used as light-actuated valve structures in micro-fluidic platforms. 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447249"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/21447249/Wearable_micro_fluidic_pH_sweat_sensing_device_based_on_colorimetric_imaging_techniques"><img alt="Research paper thumbnail of Wearable micro-fluidic pH sweat sensing device based on colorimetric imaging techniques" class="work-thumbnail" src="https://attachments.academia-assets.com/41881174/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/21447249/Wearable_micro_fluidic_pH_sweat_sensing_device_based_on_colorimetric_imaging_techniques">Wearable micro-fluidic pH sweat sensing device based on colorimetric imaging techniques</a></div><div class="wp-workCard_item"><span>Curto Vincenzo F and Fay Cormac and Coyle Shirley and Byrne Robert and Diamond Dermot and Benito Lopez Fernando Wearable Micro Fluidic Ph Sweat Sensing Device Based on Colorimetric Imaging Techniques in Microtas 2011 Conference 2 6 Oct 2011 Seattle Usa</span><span>, 2011</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">In this paper a wearable electronic-free micro-fluidic device for the continuous monitoring of pH...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">In this paper a wearable electronic-free micro-fluidic device for the continuous monitoring of pH in sweat during exercise is described. The sensing capability is based on ionogels, ionic liquid hydrogels, containing pH sensitive dyes capable of reporting pH activity in the range from 3 to 10. Previously, we reported a flexible micro-fluidic barcode capable of measuring the pH of sweat in real time . Here we have improved the device in terms of wearability, physical robustness, chemistry of the sensor and its optical response by using a mobile phone for data collection and a more accurate algorithm for colorimetric image analysis.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="d4c98e7a9b494fd3eb998c2bb2290f01" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881174,"asset_id":21447249,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881174/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447249"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447249"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447249; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447249]").text(description); $(".js-view-count[data-work-id=21447249]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447249; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447249']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447249, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "d4c98e7a9b494fd3eb998c2bb2290f01" } } $('.js-work-strip[data-work-id=21447249]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447249,"title":"Wearable micro-fluidic pH sweat sensing device based on colorimetric imaging techniques","translated_title":"","metadata":{"ai_title_tag":"Wearable Micro-Fluidic Device for Colorimetric pH Sensing","grobid_abstract":"In this paper a wearable electronic-free micro-fluidic device for the continuous monitoring of pH in sweat during exercise is described. 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The WCSN used in this work takes advantage of recent advances in low power wireless communication platforms and uses colorimetric sensors to detect the presence of certain target gases. This sensor network adopts a star configuration and performs one way RF communications from individual sensor nodes to the base-station. Each node in the network is composed of a multiple sensor platform that measures light intensity, temperature and motion. The light sensor was used as the chemical sensing platform in such a way that the node is housed in a specially constructed sealed container that has a colorimetric chemical sensing film coated PMMA window aperture directly above the light sensor. The light intensity reaching the light sensor is modulated by changes in the colour of the sensing film and such changes indicate the presence of chemical plumes.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="0533b7fd50c86d9c57fdb1093d3d25b6" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881168,"asset_id":21447244,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881168/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447244"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447244"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447244; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447244]").text(description); $(".js-view-count[data-work-id=21447244]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447244; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447244']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447244, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "0533b7fd50c86d9c57fdb1093d3d25b6" } } $('.js-work-strip[data-work-id=21447244]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447244,"title":"Evaluation of a low cost wireless chemical sensornetwork for environmental monitoring","translated_title":"","metadata":{"grobid_abstract":"We present work on the development and testing of a low-cost wireless chemical sensor network (WCSN) for monitoring irritant/toxic gases in the environment. 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The light intensity reaching the light sensor is modulated by changes in the colour of the sensing film and such changes indicate the presence of chemical plumes.","publication_date":{"day":27,"month":10,"year":2008,"errors":{}},"publication_name":"Hayes Jer and Beirne Stephen and Lau King Tong and Diamond Dermot Evaluation of a Low Cost Wireless Chemical Sensor Network For Environmental Monitoring in Ieee Sensors 2008 26 29 October 2008 Lecce Italy","grobid_abstract_attachment_id":41881168},"translated_abstract":null,"internal_url":"https://www.academia.edu/21447244/Evaluation_of_a_low_cost_wireless_chemical_sensornetwork_for_environmental_monitoring","translated_internal_url":"","created_at":"2016-02-02T01:55:48.482-08:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":21912681,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[],"downloadable_attachments":[{"id":41881168,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/41881168/thumbnails/1.jpg","file_name":"Evaluation_of_a_low_cost_wireless_chemic20160202-20424-1hzm4m6.pdf","download_url":"https://www.academia.edu/attachments/41881168/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Evaluation_of_a_low_cost_wireless_chemic.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/41881168/Evaluation_of_a_low_cost_wireless_chemic20160202-20424-1hzm4m6-libre.pdf?1454407126=\u0026response-content-disposition=attachment%3B+filename%3DEvaluation_of_a_low_cost_wireless_chemic.pdf\u0026Expires=1738577941\u0026Signature=CiLxnZR5CrUdFN2s4zJsOLW6MdO1~pYUk7Jj2NZ2py1ps4UFD9dPZ5x~wwEVI-WP31H84xLlBBlUWRYZIk~MlRfxoqMbUSijKGFK3RmWwu1euz7p3Gv4FOpdmH9nA65uHBQtOsBYGfBD-H3VUP~t0WcrBR7OQojTAPVIAQG9SMjJ7tYFptX6hnM9yU2EtWZzeOEDToaAzbeGBocGOXQDqNj316oR3zCkrV0bgjTqVyBo7Ief6rg0sn0X0ScmmJHG8ZzTIcbbEyhKB~42cZmv5HQT2TL9jX44F1GiwHMeDv1v7K5xOsOW8BmujeMztZMKo5tGz1TbYS7KTAkb18h7IQ__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"slug":"Evaluation_of_a_low_cost_wireless_chemical_sensornetwork_for_environmental_monitoring","translated_slug":"","page_count":4,"language":"en","content_type":"Work","summary":"We present work on the development and testing of a low-cost wireless chemical sensor network (WCSN) for monitoring irritant/toxic gases in the environment. 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The light intensity reaching the light sensor is modulated by changes in the colour of the sensing film and such changes indicate the presence of chemical plumes.","owner":{"id":21912681,"first_name":"Dermot","middle_initials":null,"last_name":"Diamond","page_name":"DermotDiamond","domain_name":"dcu","created_at":"2014-11-20T19:09:34.355-08:00","display_name":"Dermot Diamond","url":"https://dcu.academia.edu/DermotDiamond"},"attachments":[{"id":41881168,"title":"","file_type":"pdf","scribd_thumbnail_url":"https://attachments.academia-assets.com/41881168/thumbnails/1.jpg","file_name":"Evaluation_of_a_low_cost_wireless_chemic20160202-20424-1hzm4m6.pdf","download_url":"https://www.academia.edu/attachments/41881168/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&","bulk_download_file_name":"Evaluation_of_a_low_cost_wireless_chemic.pdf","bulk_download_url":"https://d1wqtxts1xzle7.cloudfront.net/41881168/Evaluation_of_a_low_cost_wireless_chemic20160202-20424-1hzm4m6-libre.pdf?1454407126=\u0026response-content-disposition=attachment%3B+filename%3DEvaluation_of_a_low_cost_wireless_chemic.pdf\u0026Expires=1738577941\u0026Signature=CiLxnZR5CrUdFN2s4zJsOLW6MdO1~pYUk7Jj2NZ2py1ps4UFD9dPZ5x~wwEVI-WP31H84xLlBBlUWRYZIk~MlRfxoqMbUSijKGFK3RmWwu1euz7p3Gv4FOpdmH9nA65uHBQtOsBYGfBD-H3VUP~t0WcrBR7OQojTAPVIAQG9SMjJ7tYFptX6hnM9yU2EtWZzeOEDToaAzbeGBocGOXQDqNj316oR3zCkrV0bgjTqVyBo7Ief6rg0sn0X0ScmmJHG8ZzTIcbbEyhKB~42cZmv5HQT2TL9jX44F1GiwHMeDv1v7K5xOsOW8BmujeMztZMKo5tGz1TbYS7KTAkb18h7IQ__\u0026Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA"}],"research_interests":[{"id":55,"name":"Environmental Engineering","url":"https://www.academia.edu/Documents/in/Environmental_Engineering"},{"id":4252,"name":"Computer Networks","url":"https://www.academia.edu/Documents/in/Computer_Networks"},{"id":11801,"name":"Environmental Monitoring","url":"https://www.academia.edu/Documents/in/Environmental_Monitoring"},{"id":15836,"name":"Environmental Chemistry","url":"https://www.academia.edu/Documents/in/Environmental_Chemistry"},{"id":111436,"name":"IEEE","url":"https://www.academia.edu/Documents/in/IEEE"},{"id":158569,"name":"Sensor Network","url":"https://www.academia.edu/Documents/in/Sensor_Network"},{"id":169392,"name":"Detectors","url":"https://www.academia.edu/Documents/in/Detectors"},{"id":181287,"name":"Low Power","url":"https://www.academia.edu/Documents/in/Low_Power"},{"id":387505,"name":"Light Intensity","url":"https://www.academia.edu/Documents/in/Light_Intensity"},{"id":1232975,"name":"Wireless Communication","url":"https://www.academia.edu/Documents/in/Wireless_Communication-1"},{"id":1309738,"name":"Chemical Sensor","url":"https://www.academia.edu/Documents/in/Chemical_Sensor"},{"id":1555652,"name":"Base station","url":"https://www.academia.edu/Documents/in/Base_station"},{"id":1605361,"name":"Sensor nodes","url":"https://www.academia.edu/Documents/in/Sensor_nodes"}],"urls":[{"id":6302787,"url":"http://doras.dcu.ie/699/"},{"id":6302915,"url":"https://www.researchgate.net/profile/Stephen_Beirne/publication/224359992_Evaluation_of_a_low_cost_wireless_chemical_sensor_network_for_environmental_monitoring/links/0912f50ba79449adea000000.pdf"}]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447243"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" rel="nofollow" href="https://www.academia.edu/21447243/Ionogel_biosensor_novel_ionogels_based_on_ionic_liquids_as_a_platform_to_measure_enzyme_activity_of_glucose_oxdase_in_real_time"><img alt="Research paper thumbnail of Ionogel-biosensor: novel ionogels based on ionic liquids as a platform to measure enzyme activity of glucose oxdase in real time" class="work-thumbnail" src="https://a.academia-assets.com/images/blank-paper.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" rel="nofollow" href="https://www.academia.edu/21447243/Ionogel_biosensor_novel_ionogels_based_on_ionic_liquids_as_a_platform_to_measure_enzyme_activity_of_glucose_oxdase_in_real_time">Ionogel-biosensor: novel ionogels based on ionic liquids as a platform to measure enzyme activity of glucose oxdase in real time</a></div><div class="wp-workCard_item"><span>Barry Caroline and Byrne Robert and Benito Lopez Fernando and Diamond Dermot Ionogel Biosensor Novel Ionogels Based on Ionic Liquids As a Platform to Measure Enzyme Activity of Glucose Oxdase in Real Time in E Mrs 2010 Spring Meeting 7 11 June 2010 Strasbourg France</span><span>, 2010</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">ABSTRACT It is estimated that there are 170 million diabetics worldwide, and the number continues...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">ABSTRACT It is estimated that there are 170 million diabetics worldwide, and the number continues to rise alarmingly. The management of diabetes is therefore critical to future society, and this is driving demand for point-of-care (POC) glucose biosensors, and they play a central role in the management blood sugar levels in patients with diabetes. Glucose Oxidase (GOx) is a biorecognition enzyme, which recognises the glucose molecule and acts as a catalyst to produce gluconic acid and hydrogen peroxide in the presence of glucose and oxygen.[1] Ionic Liquids are organic salts, which are liquid at ambient temperature. Their non-volatile character and thermal stability makes them an attractive alternative to conventional organic solvents. We are interested in studying the characteristics of GOx in ionic liquids, and in polymer materials incorporating ionic liquids known as ionogels. Herein we report the enzyme activity of GOx in a biosensor fabricated using a novel hybrid ionogel. This approach potentially offers several advantages over conventional materials. For example, the ionogels can be chemically and physically tailored for a particular requirement. [3] The design of these ionogels ensures that the enzyme is effectively retained in the polymer, thus preventing leaching. The ionogel-biosensor has been incorporated into a compact, portable and low cost device, which allows the real time monitoring of enzyme activity of GOx. Based on this model, we project that this device will provide the platform for measuring the enzyme activity of a wide range of enzymes.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447243"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447243"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447243; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21447243]").text(description); $(".js-view-count[data-work-id=21447243]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21447243; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21447243']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21447243, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (false){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "-1" } } $('.js-work-strip[data-work-id=21447243]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21447243,"title":"Ionogel-biosensor: novel ionogels based on ionic liquids as a platform to measure enzyme activity of glucose oxdase in real time","translated_title":"","metadata":{"abstract":"ABSTRACT It is estimated that there are 170 million diabetics worldwide, and the number continues to rise alarmingly. The management of diabetes is therefore critical to future society, and this is driving demand for point-of-care (POC) glucose biosensors, and they play a central role in the management blood sugar levels in patients with diabetes. Glucose Oxidase (GOx) is a biorecognition enzyme, which recognises the glucose molecule and acts as a catalyst to produce gluconic acid and hydrogen peroxide in the presence of glucose and oxygen.[1] Ionic Liquids are organic salts, which are liquid at ambient temperature. Their non-volatile character and thermal stability makes them an attractive alternative to conventional organic solvents. We are interested in studying the characteristics of GOx in ionic liquids, and in polymer materials incorporating ionic liquids known as ionogels. Herein we report the enzyme activity of GOx in a biosensor fabricated using a novel hybrid ionogel. This approach potentially offers several advantages over conventional materials. For example, the ionogels can be chemically and physically tailored for a particular requirement. [3] The design of these ionogels ensures that the enzyme is effectively retained in the polymer, thus preventing leaching. The ionogel-biosensor has been incorporated into a compact, portable and low cost device, which allows the real time monitoring of enzyme activity of GOx. Based on this model, we project that this device will provide the platform for measuring the enzyme activity of a wide range of enzymes.","publication_date":{"day":null,"month":null,"year":2010,"errors":{}},"publication_name":"Barry Caroline and Byrne Robert and Benito Lopez Fernando and Diamond Dermot Ionogel Biosensor Novel Ionogels Based on Ionic Liquids As a Platform to Measure Enzyme Activity of Glucose Oxdase in Real Time in E Mrs 2010 Spring Meeting 7 11 June 2010 Strasbourg France"},"translated_abstract":"ABSTRACT It is estimated that there are 170 million diabetics worldwide, and the number continues to rise alarmingly. The management of diabetes is therefore critical to future society, and this is driving demand for point-of-care (POC) glucose biosensors, and they play a central role in the management blood sugar levels in patients with diabetes. Glucose Oxidase (GOx) is a biorecognition enzyme, which recognises the glucose molecule and acts as a catalyst to produce gluconic acid and hydrogen peroxide in the presence of glucose and oxygen.[1] Ionic Liquids are organic salts, which are liquid at ambient temperature. Their non-volatile character and thermal stability makes them an attractive alternative to conventional organic solvents. We are interested in studying the characteristics of GOx in ionic liquids, and in polymer materials incorporating ionic liquids known as ionogels. Herein we report the enzyme activity of GOx in a biosensor fabricated using a novel hybrid ionogel. This approach potentially offers several advantages over conventional materials. For example, the ionogels can be chemically and physically tailored for a particular requirement. [3] The design of these ionogels ensures that the enzyme is effectively retained in the polymer, thus preventing leaching. The ionogel-biosensor has been incorporated into a compact, portable and low cost device, which allows the real time monitoring of enzyme activity of GOx. Based on this model, we project that this device will provide the platform for measuring the enzyme activity of a wide range of enzymes.","internal_url":"https://www.academia.edu/21447243/Ionogel_biosensor_novel_ionogels_based_on_ionic_liquids_as_a_platform_to_measure_enzyme_activity_of_glucose_oxdase_in_real_time","translated_internal_url":"","created_at":"2016-02-02T01:55:48.203-08:00","preview_url":null,"current_user_can_edit":null,"current_user_is_owner":null,"owner_id":21912681,"coauthors_can_edit":true,"document_type":"paper","co_author_tags":[],"downloadable_attachments":[],"slug":"Ionogel_biosensor_novel_ionogels_based_on_ionic_liquids_as_a_platform_to_measure_enzyme_activity_of_glucose_oxdase_in_real_time","translated_slug":"","page_count":null,"language":"en","content_type":"Work","summary":"ABSTRACT It is estimated that there are 170 million diabetics worldwide, and the number continues to rise alarmingly. The management of diabetes is therefore critical to future society, and this is driving demand for point-of-care (POC) glucose biosensors, and they play a central role in the management blood sugar levels in patients with diabetes. Glucose Oxidase (GOx) is a biorecognition enzyme, which recognises the glucose molecule and acts as a catalyst to produce gluconic acid and hydrogen peroxide in the presence of glucose and oxygen.[1] Ionic Liquids are organic salts, which are liquid at ambient temperature. Their non-volatile character and thermal stability makes them an attractive alternative to conventional organic solvents. We are interested in studying the characteristics of GOx in ionic liquids, and in polymer materials incorporating ionic liquids known as ionogels. Herein we report the enzyme activity of GOx in a biosensor fabricated using a novel hybrid ionogel. This approach potentially offers several advantages over conventional materials. For example, the ionogels can be chemically and physically tailored for a particular requirement. [3] The design of these ionogels ensures that the enzyme is effectively retained in the polymer, thus preventing leaching. The ionogel-biosensor has been incorporated into a compact, portable and low cost device, which allows the real time monitoring of enzyme activity of GOx. Based on this model, we project that this device will provide the platform for measuring the enzyme activity of a wide range of enzymes.","owner":{"id":21912681,"first_name":"Dermot","middle_initials":null,"last_name":"Diamond","page_name":"DermotDiamond","domain_name":"dcu","created_at":"2014-11-20T19:09:34.355-08:00","display_name":"Dermot Diamond","url":"https://dcu.academia.edu/DermotDiamond"},"attachments":[],"research_interests":[{"id":523,"name":"Chemistry","url":"https://www.academia.edu/Documents/in/Chemistry"}],"urls":[{"id":6302786,"url":"http://doras.dcu.ie/15417/"}]}, dispatcherData: dispatcherData }); $(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> <div class="js-work-strip profile--work_container" data-work-id="21447242"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/21447242/5_6_Dichloro_1_3_3_trimethylspiro_2_H_1_benzopyran_2_2_indoline_"><img alt="Research paper thumbnail of 5',6-Dichloro-1',3',3'-trimethylspiro[2 H -1-benzopyran-2,2'-indoline]" class="work-thumbnail" src="https://attachments.academia-assets.com/41881167/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/21447242/5_6_Dichloro_1_3_3_trimethylspiro_2_H_1_benzopyran_2_2_indoline_">5',6-Dichloro-1',3',3'-trimethylspiro[2 H -1-benzopyran-2,2'-indoline]</a></div><div class="wp-workCard_item"><span>Acta Crystallogr E Struct Rep</span><span>, 2008</span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">Key indicators: single-crystal X-ray study; T = 100 K; mean (C-C) = 0.002 Å; R factor = 0.047; wR...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">Key indicators: single-crystal X-ray study; T = 100 K; mean (C-C) = 0.002 Å; R factor = 0.047; wR factor = 0.123; data-to-parameter ratio = 15.6.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="7f5694fd7f9ec430d1ea60ed7eaf5092" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41881167,"asset_id":21447242,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41881167/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21447242"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21447242"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21447242; 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$(this).data('initialized', true); } }); $a.trackClickSource(".js-work-strip-work-link", "profile_work_strip") }); </script> </div><div class="profile--tab_content_container js-tab-pane tab-pane" data-section-id="4518713" id="2014"><div class="js-work-strip profile--work_container" data-work-id="21334627"><div class="profile--work_thumbnail hidden-xs"><a class="js-work-strip-work-link" data-click-track="profile-work-strip-thumbnail" href="https://www.academia.edu/21334627/Advances_in_three_dimensional_rapid_prototyping_of_microfluidic_devices_for_biological_applications"><img alt="Research paper thumbnail of Advances in three-dimensional rapid prototyping of microfluidic devices for biological applications" class="work-thumbnail" src="https://attachments.academia-assets.com/41820854/thumbnails/1.jpg" /></a></div><div class="wp-workCard wp-workCard_itemContainer"><div class="wp-workCard_item wp-workCard--title"><a class="js-work-strip-work-link text-gray-darker" data-click-track="profile-work-strip-title" href="https://www.academia.edu/21334627/Advances_in_three_dimensional_rapid_prototyping_of_microfluidic_devices_for_biological_applications">Advances in three-dimensional rapid prototyping of microfluidic devices for biological applications</a></div><div class="wp-workCard_item wp-workCard--coauthors"><span>by </span><span><a class="" data-click-track="profile-work-strip-authors" href="https://dcu.academia.edu/DermotBrabazon">Dermot Brabazon</a>, <a class="" data-click-track="profile-work-strip-authors" href="https://dit.academia.edu/pfoneill">Paul F O'Neill</a>, <a class="" data-click-track="profile-work-strip-authors" href="https://dcu.academia.edu/MercedesVazquez">Mercedes Vazquez</a>, <a class="" data-click-track="profile-work-strip-authors" href="https://independent.academia.edu/LiuJinghang">Jinghang Liu</a>, <a class="" data-click-track="profile-work-strip-authors" href="https://independent.academia.edu/StevenMarczak">Steven Marczak</a>, <a class="" data-click-track="profile-work-strip-authors" href="https://nd.academia.edu/HsuehChiaChang">Hsueh-Chia Chang</a>, and <a class="" data-click-track="profile-work-strip-authors" href="https://dcu.academia.edu/DermotDiamond">Dermot Diamond</a></span></div><div class="wp-workCard_item"><span class="js-work-more-abstract-truncated">The capability of 3D printing technologies for direct production of complex 3D structures in a si...</span><a class="js-work-more-abstract" data-broccoli-component="work_strip.more_abstract" data-click-track="profile-work-strip-more-abstract" href="javascript:;"><span> more </span><span><i class="fa fa-caret-down"></i></span></a><span class="js-work-more-abstract-untruncated hidden">The capability of 3D printing technologies for direct production of complex 3D structures in a single step has recently attracted an ever increasing interest within the field of microfluidics. Recently, ultrafast lasers have also allowed developing<br />new methods for production of internal microfluidic channels within the bulk of glass and polymer materials by direct internal 3D laser writing. This review critically summarizes the latest advances in the production of microfluidic 3D structures by using 3D printing technologies and direct internal 3D laser writing fabrication methods. Current applications of these rapid prototyped microfluidic platforms in biology will be also discussed. These include imaging of cells and living organisms, electrochemical detection of viruses and neurotransmitters, and<br />studies in drug transport and induced-release of adenosine triphosphate from erythrocytes.</span></div><div class="wp-workCard_item wp-workCard--actions"><span class="work-strip-bookmark-button-container"></span><a id="18c5a14ec3a845c594fed24604cd983a" class="wp-workCard--action" rel="nofollow" data-click-track="profile-work-strip-download" data-download="{"attachment_id":41820854,"asset_id":21334627,"asset_type":"Work","button_location":"profile"}" href="https://www.academia.edu/attachments/41820854/download_file?st=MTczODU4MzY2Niw4LjIyMi4yMDguMTQ2&s=profile"><span><i class="fa fa-arrow-down"></i></span><span>Download</span></a><span class="wp-workCard--action visible-if-viewed-by-owner inline-block" style="display: none;"><span class="js-profile-work-strip-edit-button-wrapper profile-work-strip-edit-button-wrapper" data-work-id="21334627"><a class="js-profile-work-strip-edit-button" tabindex="0"><span><i class="fa fa-pencil"></i></span><span>Edit</span></a></span></span><span id="work-strip-rankings-button-container"></span></div><div class="wp-workCard_item wp-workCard--stats"><span><span><span class="js-view-count view-count u-mr2x" data-work-id="21334627"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 21334627; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=21334627]").text(description); $(".js-view-count[data-work-id=21334627]").attr('title', description).tooltip(); }); });</script></span></span><span><span class="percentile-widget hidden"><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 21334627; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-work-strip[data-work-id='21334627']"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></span><span><script>$(function() { new Works.PaperRankView({ workId: 21334627, container: "", }); });</script></span></div><div id="work-strip-premium-row-container"></div></div></div><script> require.config({ waitSeconds: 90 })(["https://a.academia-assets.com/assets/wow_profile-6755cc7b199f6915bc04b434d6f9f816cab16dd0d4b8651e65db5d41dbdbbb98.js","https://a.academia-assets.com/assets/work_edit-ad038b8c047c1a8d4fa01b402d530ff93c45fee2137a149a4a5398bc8ad67560.js"], function() { // from javascript_helper.rb var dispatcherData = {} if (true){ window.WowProfile.dispatcher = window.WowProfile.dispatcher || _.clone(Backbone.Events); dispatcherData = { dispatcher: window.WowProfile.dispatcher, downloadLinkId: "18c5a14ec3a845c594fed24604cd983a" } } $('.js-work-strip[data-work-id=21334627]').each(function() { if (!$(this).data('initialized')) { new WowProfile.WorkStripView({ el: this, workJSON: {"id":21334627,"title":"Advances in three-dimensional rapid prototyping of microfluidic devices for biological applications","translated_title":"","metadata":{"abstract":"The capability of 3D printing technologies for direct production of complex 3D structures in a single step has recently attracted an ever increasing interest within the field of microfluidics. 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Recently, ultrafast lasers have also allowed developing\nnew methods for production of internal microfluidic channels within the bulk of glass and polymer materials by direct internal 3D laser writing. This review critically summarizes the latest advances in the production of microfluidic 3D structures by using 3D printing technologies and direct internal 3D laser writing fabrication methods. Current applications of these rapid prototyped microfluidic platforms in biology will be also discussed. 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