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<!DOCTYPE html> <html > <head> <meta charset="utf-8"> <meta rel="search" type="application/opensearchdescription+xml" href="/open_search.xml" title="Academia.edu"> <meta content="width=device-width, initial-scale=1" name="viewport"> <meta name="google-site-verification" content="bKJMBZA7E43xhDOopFZkssMMkBRjvYERV-NaN4R6mrs"> <meta name="csrf-param" content="authenticity_token" /> <meta name="csrf-token" content="Ft6M57S9SwPMGK0LtlByIsCJwmFMHKAyCa9O0NkjaJB/OAe/JBcAsYU8Bo2XbKtq4oC05jfmwad5qxjHBXi3sw==" /> <meta name="citation_title" content="Water-Soluble Polymer and Photocatalysis for Arsenic Removal" /> <meta name="citation_author" content="Nalan Kabay" /> <meta name="citation_author" content="M. Bryjak" /> <meta name="twitter:card" content="summary" /> <meta name="twitter:url" content="https://www.academia.edu/28115013/Water_Soluble_Polymer_and_Photocatalysis_for_Arsenic_Removal" /> <meta name="twitter:title" content="Water-Soluble Polymer and Photocatalysis for Arsenic Removal" /> <meta name="twitter:description" content="In this study, the photocatalytic oxidation of hazardous arsenite (As(III)) to arsenate (As(V)) and the sequential removal of arsenate from aqueous solution by liquid-phase polymer-based retention (LPR) were investigated. The photocatalytic oxidation" /> <meta name="twitter:image" content="http://a.academia-assets.com/images/twitter-card.jpeg" /> <meta property="fb:app_id" content="2369844204" /> <meta property="og:type" content="article" /> <meta property="og:url" content="https://www.academia.edu/28115013/Water_Soluble_Polymer_and_Photocatalysis_for_Arsenic_Removal" /> <meta property="og:title" content="Water-Soluble Polymer and Photocatalysis for Arsenic Removal" /> <meta property="og:image" content="http://a.academia-assets.com/images/open-graph-icons/fb-paper.gif" /> <meta property="og:description" content="In this study, the photocatalytic oxidation of hazardous arsenite (As(III)) to arsenate (As(V)) and the sequential removal of arsenate from aqueous solution by liquid-phase polymer-based retention (LPR) were investigated. The photocatalytic oxidation" /> <meta property="article:author" content="https://pwr-wroc.academia.edu/MBryjak" /> <meta property="article:author" content="https://independent.academia.edu/NKabay" /> <meta name="description" content="In this study, the photocatalytic oxidation of hazardous arsenite (As(III)) to arsenate (As(V)) and the sequential removal of arsenate from aqueous solution by liquid-phase polymer-based retention (LPR) were investigated. The photocatalytic oxidation" /> <title>(PDF) Water-Soluble Polymer and Photocatalysis for Arsenic Removal</title> <link rel="canonical" href="https://www.academia.edu/28115013/Water_Soluble_Polymer_and_Photocatalysis_for_Arsenic_Removal" /> <script async src="https://www.googletagmanager.com/gtag/js?id=G-5VKX33P2DS"></script> <script> window.dataLayer = window.dataLayer || []; function gtag(){dataLayer.push(arguments);} gtag('js', new Date()); gtag('config', 'G-5VKX33P2DS', { cookie_domain: 'academia.edu', send_page_view: false, }); gtag('event', 'page_view', { 'controller': "single_work", 'action': "show", 'controller_action': 'single_work#show', 'logged_in': 'false', 'edge': 'unknown', // Send nil if there is no A/B test bucket, in case some records get logged // with missing data - that way we can distinguish between the two cases. // ab_test_bucket should be of the form <ab_test_name>:<bucket> 'ab_test_bucket': null, }) </script> <script> var $controller_name = 'single_work'; var $action_name = "show"; var $rails_env = 'production'; var $app_rev = '0192aed340bff0301971519c3416a67fe8da52c1'; var $domain = 'academia.edu'; var $app_host = "academia.edu"; var $asset_host = "academia-assets.com"; var $start_time = new Date().getTime(); var $recaptcha_key = "6LdxlRMTAAAAADnu_zyLhLg0YF9uACwz78shpjJB"; var $recaptcha_invisible_key = "6Lf3KHUUAAAAACggoMpmGJdQDtiyrjVlvGJ6BbAj"; var $disableClientRecordHit = false; </script> <script> window.require = { config: function() { return function() {} } } </script> <script> window.Aedu = window.Aedu || {}; window.Aedu.hit_data = null; window.Aedu.serverRenderTime = new Date(1733348544000); window.Aedu.timeDifference = new Date().getTime() - 1733348544000; </script> <script type="application/ld+json">{"@context":"https://schema.org","@type":"ScholarlyArticle","abstract":"In this study, the photocatalytic oxidation of hazardous arsenite (As(III)) to arsenate (As(V)) and the sequential removal of arsenate from aqueous solution by liquid-phase polymer-based retention (LPR) were investigated. The photocatalytic oxidation of arsenite was performed using TiO 2 (P25 Degussa, Germany) under UV-A light. The optimal photocatalytic conditions to oxidize 10 mg L 21 of arsenite solution were achieved using a 0.5 g L 21 of catalyst at a pH value of 2. The As(III) oxidation reached 100% after 30 min of illumination with UV-A light. A water-soluble polymer containing quaternary ammonium groups, poly(3-acrylamidopro-pyl)trimethylammonium chloride (P(ClAPTA)), was used as an extracting reagent in the LPR process. To obtain the optimized conditions , the removal experiments were performed at various polymer : As(V) molar ratios using 10 mg L 21 of arsenate solutions. After the oxidation of As(III) to As(V), the removal of arsenate by P(ClAPTA) was obtained in a 99% yield using a 20 : 1 polymer : As(V) molar ratio at a pH value of 9. The results demonstrate that the combination of these methods is highly useful for potential applications related to the treatment of wastewater contaminated with As(III). V","author":[{"@context":"https://schema.org","@type":"Person","name":"M. Bryjak"},{"@context":"https://schema.org","@type":"Person","name":"Nalan Kabay"}],"contributor":[{"@context":"https://schema.org","@type":"Person","name":"Nalan Kabay"}],"dateCreated":"2016-08-30","dateModified":"2016-09-06","headline":"Water-Soluble Polymer and Photocatalysis for Arsenic Removal","image":"https://attachments.academia-assets.com/48430591/thumbnails/1.jpg","inLanguage":"en","keywords":["Environmental Engineering","Chemical Engineering"],"publisher":{"@context":"https://schema.org","@type":"Organization","name":null},"sourceOrganization":[{"@context":"https://schema.org","@type":"EducationalOrganization","name":"pwr-wroc"},{"@context":"https://schema.org","@type":"EducationalOrganization","name":null}],"thumbnailUrl":"https://attachments.academia-assets.com/48430591/thumbnails/1.jpg","url":"https://www.academia.edu/28115013/Water_Soluble_Polymer_and_Photocatalysis_for_Arsenic_Removal"}</script><link rel="stylesheet" media="all" 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from aqueous solution by liquid-phase polymer-based retention (LPR) were investigated. The photocatalytic oxidation of arsenite was performed using TiO 2 (P25 Degussa, Germany) under UV-A light. The optimal photocatalytic conditions to oxidize 10 mg L 21 of arsenite solution were achieved using a 0.5 g L 21 of catalyst at a pH value of 2. The As(III) oxidation reached 100% after 30 min of illumination with UV-A light. A water-soluble polymer containing quaternary ammonium groups, poly(3-acrylamidopro-pyl)trimethylammonium chloride (P(ClAPTA)), was used as an extracting reagent in the LPR process. To obtain the optimized conditions , the removal experiments were performed at various polymer : As(V) molar ratios using 10 mg L 21 of arsenate solutions. After the oxidation of As(III) to As(V), the removal of arsenate by P(ClAPTA) was obtained in a 99% yield using a 20 : 1 polymer : As(V) molar ratio at a pH value of 9. The results demonstrate that the combination of these methods is highly useful for potential applications related to the treatment of wastewater contaminated with As(III). V"},"document_type":"paper","pre_hit_view_count_baseline":null,"quality":"high","language":"en","title":"Water-Soluble Polymer and Photocatalysis for Arsenic Removal","broadcastable":true,"draft":null,"has_indexable_attachment":true,"indexable":true}}["work"]; window.loswp.workCoauthors = [52944279,32011861]; window.loswp.locale = "en"; window.loswp.countryCode = "SG"; window.loswp.cwvAbTestBucket = ""; window.loswp.designVariant = "ds_vanilla"; window.loswp.fullPageMobileSutdModalVariant = "control"; window.loswp.useOptimizedScribd4genScript = false; window.loswp.appleClientId = 'edu.academia.applesignon';</script><script defer="" src="https://accounts.google.com/gsi/client"></script><div class="ds-loswp-container"><div class="ds-work-card--grid-container"><div class="ds-work-card--container js-loswp-work-card"><div class="ds-work-card--cover"><div class="ds-work-cover--wrapper"><div class="ds-work-cover--container"><button class="ds-work-cover--clickable js-swp-download-button" data-signup-modal="{"location":"swp-splash-paper-cover","attachmentId":48430591,"attachmentType":"pdf"}"><img alt="First page of “Water-Soluble Polymer and Photocatalysis for Arsenic Removal”" class="ds-work-cover--cover-thumbnail" src="https://0.academia-photos.com/attachment_thumbnails/48430591/mini_magick20190203-8866-pgek04.png?1549246052" /><img alt="PDF Icon" class="ds-work-cover--file-icon" src="//a.academia-assets.com/assets/single_work_splash/adobe.icon-574afd46eb6b03a77a153a647fb47e30546f9215c0ee6a25df597a779717f9ef.svg" /><div class="ds-work-cover--hover-container"><span class="material-symbols-outlined" style="font-size: 20px" translate="no">download</span><p>Download Free PDF</p></div><div class="ds-work-cover--ribbon-container">Download Free PDF</div><div class="ds-work-cover--ribbon-triangle"></div></button></div></div></div><div class="ds-work-card--work-information"><h1 class="ds-work-card--work-title">Water-Soluble Polymer and Photocatalysis for Arsenic Removal</h1><div class="ds-work-card--work-authors ds-work-card--detail"><a class="ds-work-card--author js-wsj-grid-card-author ds2-5-body-md ds2-5-body-link" data-author-id="52944279" href="https://independent.academia.edu/NKabay"><img alt="Profile image of Nalan Kabay" class="ds-work-card--author-avatar" src="//a.academia-assets.com/images/s65_no_pic.png" />Nalan Kabay</a><a class="ds-work-card--author js-wsj-grid-card-author ds2-5-body-md ds2-5-body-link" data-author-id="32011861" href="https://pwr-wroc.academia.edu/MBryjak"><img alt="Profile image of M. Bryjak" class="ds-work-card--author-avatar" src="//a.academia-assets.com/images/s65_no_pic.png" />M. Bryjak</a></div><div class="ds-work-card--detail"><div class="ds-work-card--work-metadata"><div class="ds-work-card--work-metadata__stat"><span class="material-symbols-outlined" style="font-size: 20px" translate="no">visibility</span><p class="ds2-5-body-sm" id="work-metadata-view-count">…</p></div><div class="ds-work-card--work-metadata__stat"><span class="material-symbols-outlined" style="font-size: 20px" translate="no">description</span><p class="ds2-5-body-sm">6 pages</p></div><div class="ds-work-card--work-metadata__stat"><span class="material-symbols-outlined" style="font-size: 20px" translate="no">link</span><p class="ds2-5-body-sm">1 file</p></div></div><script>(async () => { const workId = 28115013; const worksViewsPath = "/v0/works/views?subdomain_param=api&work_ids%5B%5D=28115013"; const getWorkViews = async (workId) => { const response = await fetch(worksViewsPath); if (!response.ok) { throw new Error('Failed to load work views'); } const data = await response.json(); return data.views[workId]; }; // Get the view count for the work - we send this immediately rather than waiting for // the DOM to load, so it can be available as soon as possible (but without holding up // the backend or other resource requests, because it's a bit expensive and not critical). const viewCount = await getWorkViews(workId); const updateViewCount = (viewCount) => { const viewCountNumber = Number(viewCount); if (!viewCountNumber) { throw new Error('Failed to parse view count'); } const commaizedViewCount = viewCountNumber.toLocaleString(); const viewCountBody = document.getElementById('work-metadata-view-count'); if (viewCountBody) { viewCountBody.textContent = `${commaizedViewCount} views`; } else { throw new Error('Failed to find work views element'); } }; // If the DOM is still loading, wait for it to be ready before updating the view count. if (document.readyState === "loading") { document.addEventListener('DOMContentLoaded', () => { updateViewCount(viewCount); }); // Otherwise, just update it immediately. } else { updateViewCount(viewCount); } })();</script></div><p class="ds-work-card--work-abstract ds-work-card--detail ds2-5-body-md">In this study, the photocatalytic oxidation of hazardous arsenite (As(III)) to arsenate (As(V)) and the sequential removal of arsenate from aqueous solution by liquid-phase polymer-based retention (LPR) were investigated. The photocatalytic oxidation of arsenite was performed using TiO 2 (P25 Degussa, Germany) under UV-A light. The optimal photocatalytic conditions to oxidize 10 mg L 21 of arsenite solution were achieved using a 0.5 g L 21 of catalyst at a pH value of 2. The As(III) oxidation reached 100% after 30 min of illumination with UV-A light. A water-soluble polymer containing quaternary ammonium groups, poly(3-acrylamidopro-pyl)trimethylammonium chloride (P(ClAPTA)), was used as an extracting reagent in the LPR process. To obtain the optimized conditions , the removal experiments were performed at various polymer : As(V) molar ratios using 10 mg L 21 of arsenate solutions. After the oxidation of As(III) to As(V), the removal of arsenate by P(ClAPTA) was obtained in a 99% yield using a 20 : 1 polymer : As(V) molar ratio at a pH value of 9. The results demonstrate that the combination of these methods is highly useful for potential applications related to the treatment of wastewater contaminated with As(III). 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data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/43411207/Cationic_water_soluble_polymers_with_the_ability_to_remove_arsenate_through_an_ultrafiltration_technique">Cationic water-soluble polymers with the ability to remove arsenate through an ultrafiltration technique</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="161888279" href="https://udec-cl.academia.edu/EduardoPereira">Eduardo Pereira</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Journal of Applied Polymer Science, 2007</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Cationic water-soluble polymers with the ability to remove arsenate through an ultrafiltration 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ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/102994516/Enhanced_arsenite_removal_through_surface_catalyzed_oxidative_coagulation_treatment">Enhanced arsenite removal through surface-catalyzed oxidative coagulation treatment</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="59150434" href="https://independent.academia.edu/WeileYan">Weile Yan</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Chemosphere, 2016</p><p class="ds-related-work--abstract ds2-5-body-sm">Arsenic being a naturally-occurring groundwater contaminant is subject to stringent water quality regulations. Coagulation and adsorption are widely used methods to treat arsenic-contaminated water, however, these treatments have been reported to be less efficient for the removal of arsenite (As(III)) than arsenate (As(V)). In this study, the feasibility of in situ oxidation of As(III) during coagulation was investigated in two systems: Fe(II) or H2O2-assisted oxidative coagulation treatment using ferric chloride as the coagulant. This setup exploits the catalytic property of the fresh formed Fe(III) hydroxide colloids in coagulation suspension to mediate the production of reactive oxidants capable of As(III) oxidation. Fe(II)-assisted coagulation brought about small improvements in As(III) removal compared to treatment with Fe(III) coagulant alone, however, its arsenic removal efficiency is strongly dependent on pH (observed optimal pH = 7-9). Addition of H2O2 together with ferric ...</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Enhanced arsenite removal through surface-catalyzed oxidative coagulation treatment","attachmentId":103119150,"attachmentType":"pdf","work_url":"https://www.academia.edu/102994516/Enhanced_arsenite_removal_through_surface_catalyzed_oxidative_coagulation_treatment","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/102994516/Enhanced_arsenite_removal_through_surface_catalyzed_oxidative_coagulation_treatment"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="7" data-entity-id="75522684" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/75522684/Waste_sludge_derived_adsorbents_for_arsenate_removal_from_water">Waste sludge derived adsorbents for arsenate removal from water</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="41242650" href="https://hanyang.academia.edu/ByongHunJeon">Byong Hun Jeon</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Chemosphere</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Waste sludge derived adsorbents for arsenate removal from water","attachmentId":83257720,"attachmentType":"pdf","work_url":"https://www.academia.edu/75522684/Waste_sludge_derived_adsorbents_for_arsenate_removal_from_water","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/75522684/Waste_sludge_derived_adsorbents_for_arsenate_removal_from_water"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="8" data-entity-id="90286266" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/90286266/Removal_of_arsenic_from_drinking_water_by_photo_catalytic_oxidation_on_MoOx_TiO2and_adsorption_on_%CE%B3_Al2O3">Removal of arsenic from drinking water by photo-catalytic oxidation on MoOx/TiO2and adsorption on γ-Al2O3</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="244323184" href="https://independent.academia.edu/AnnaFarina18">Anna Farina</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Journal of Chemical Technology &amp; Biotechnology, 2014</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Removal of arsenic from drinking water by photo-catalytic oxidation on MoOx/TiO2and adsorption on γ-Al2O3","attachmentId":93890808,"attachmentType":"pdf","work_url":"https://www.academia.edu/90286266/Removal_of_arsenic_from_drinking_water_by_photo_catalytic_oxidation_on_MoOx_TiO2and_adsorption_on_%CE%B3_Al2O3","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/90286266/Removal_of_arsenic_from_drinking_water_by_photo_catalytic_oxidation_on_MoOx_TiO2and_adsorption_on_%CE%B3_Al2O3"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="9" data-entity-id="102292985" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/102292985/Arsenic_removal_by_photo_catalysis_hybrid_system">Arsenic removal by photo-catalysis hybrid system</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="271056295" href="https://independent.academia.edu/ThanhHauNguyen12">Thanh Hau Nguyen</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Separation and Purification Technology, 2008</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Arsenic removal by photo-catalysis hybrid system","attachmentId":102599713,"attachmentType":"pdf","work_url":"https://www.academia.edu/102292985/Arsenic_removal_by_photo_catalysis_hybrid_system","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/102292985/Arsenic_removal_by_photo_catalysis_hybrid_system"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div></div></div><div class="ds-sticky-ctas--wrapper js-loswp-sticky-ctas hidden"><div class="ds-sticky-ctas--grid-container"><div class="ds-sticky-ctas--container"><button class="ds2-5-button js-swp-download-button" data-signup-modal="{"location":"continue-reading-button--sticky-ctas","attachmentId":48430591,"attachmentType":"pdf","workUrl":null}">See full PDF</button><button class="ds2-5-button ds2-5-button--secondary js-swp-download-button" data-signup-modal="{"location":"download-pdf-button--sticky-ctas","attachmentId":48430591,"attachmentType":"pdf","workUrl":null}"><span class="material-symbols-outlined" style="font-size: 20px" translate="no">download</span>Download PDF</button></div></div></div><div class="ds-below-fold--grid-container"><div class="ds-work--container js-loswp-embedded-document"><div class="attachment_preview" data-attachment="Attachment_48430591" style="display: none"><div class="js-scribd-document-container"><div class="scribd--document-loading js-scribd-document-loader" style="display: block;"><img alt="Loading..." src="//a.academia-assets.com/images/loaders/paper-load.gif" /><p>Loading Preview</p></div></div><div style="text-align: center;"><div class="scribd--no-preview-alert js-preview-unavailable"><p>Sorry, preview is currently unavailable. 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Siddiq</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Journal of environmental management, 2015</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Fast removal of high quantities of toxic arsenate via cationic p(APTMACl) microgels","attachmentId":103473819,"attachmentType":"pdf","work_url":"https://www.academia.edu/103476032/Fast_removal_of_high_quantities_of_toxic_arsenate_via_cationic_p_APTMACl_microgels","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-related-work-grid-card-view-pdf" href="https://www.academia.edu/103476032/Fast_removal_of_high_quantities_of_toxic_arsenate_via_cationic_p_APTMACl_microgels"><span 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Chavan</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Journal of Environmental Chemical Engineering, 2016</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"The Removal of arsenite [As(III)] and arsenate [As(V)] ions from wastewater using TFA and TAFA resins: Computational intelligence based reaction modeling and optimization","attachmentId":86183954,"attachmentType":"pdf","work_url":"https://www.academia.edu/79484469/The_Removal_of_arsenite_As_III_and_arsenate_As_V_ions_from_wastewater_using_TFA_and_TAFA_resins_Computational_intelligence_based_reaction_modeling_and_optimization","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline 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class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-related-work-sidebar-card" data-collection-position="5" data-entity-id="89458639" data-sort-order="default"><a class="ds-related-work--title js-related-work-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/89458639/Adsorption_of_arsenites_and_arsenates_from_aqueous_solutions_by_application_of_modified_natural_inorganic_materials_A_kinetic_study">Adsorption of arsenites and arsenates from aqueous solutions by application of modified natural inorganic materials: A kinetic study</a><div class="ds-related-work--metadata"><a class="js-related-work-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="163926954" href="https://independent.academia.edu/KirilLisichkov">Kiril Lisichkov</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Zastita 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