<!doctype html> <html> <head> <title>Specific Interface Capacitance of Nanocomposite Materials, American Journal of Nano Research and Applications, Science Publishing Group</title> <meta name="description" content="Based on a model of interfaces existing between particles of different components, there is obtained the formula to estimate the capacitance of nanocapacitors spontaneously built in nanocomposite materials. The specific (per unit area) interface capacitance depends on the material’s characteristics such as: average width of the vacuum gap between the particles of two components, their dielectric constants, absolute values of the space charge average densities in components, and internal voltage corresponding to the difference of work functions of components. The electric capacitance associated with the internal interfaces can significantly affect electronic characteristics and, particularly, dielectric properties of nanocomposite materials."> <meta name="Keywords" content="Capacitance, Nanocomposite, Interface"> <link rel="stylesheet" href="/js/bootstrap/css/bootstrap.min.css?v=20241122084834"> <meta name="dc.title" content="Specific Interface Capacitance of Nanocomposite Materials"> <meta name="dc.creator" content="Levan Chkhartishvili"><meta name="dc.creator" content="Shorena Dekanosidze"><meta name="dc.creator" content="Ramaz Esiava"><meta name="dc.creator" content="Ia Kalandadze"><meta name="dc.creator" content="Dato Nachkebia"><meta name="dc.creator" content="Grisha Tabatadze"> <meta name="dc.source" content="American Journal of Nano Research and Applications 2017, Volume 5, Page 64"> <meta name="dc.date" content="2017-04-11"> <meta name="dc.identifier" content="10.11648/j.nano.s.2017050301.24"> <meta name="dc.publisher" content="Science Publishing Group"> <meta name="dc.rights" content="2017 The Author(s)"> <meta name="dc.copyright" content="2017 The Author(s)"> <meta name="dc.rightsAgent" content="service@sciencepublishinggroup.com"> <meta name="dc.format" content="text/pdf"> <meta name="dc.language" content="En"> <meta name="dc.description" content="Based on a model of interfaces existing between particles of different components, there is obtained the formula to estimate the capacitance of nanocapacitors spontaneously built in nanocomposite materials. The specific (per unit area) interface capacitance depends on the material’s characteristics such as: average width of the vacuum gap between the particles of two components, their dielectric constants, absolute values of the space charge average densities in components, and internal voltage corresponding to the difference of work functions of components. The electric capacitance associated with the internal interfaces can significantly affect electronic characteristics and, particularly, dielectric properties of nanocomposite materials."> <meta name="dc.subject" content="Capacitance"><meta name="dc.subject" content="Nanocomposite"><meta name="dc.subject" content="Interface"> <meta name="prism.issn" content="2575-3738"> <meta name="prism.publicationName" content="American Journal of Nano Research and Applications"> <meta name="prism.publicationDate" content="2017-04-11"> <meta name="prism.volume" content="5"> <meta name="prism.number" content="3"> <meta name="prism.startingPage" content="64"> <meta name="prism.endingPage" content="67"> <meta name="prism.copyright" content="2017 The Author(s)"> <meta name="prism.rightsAgent" content="service@sciencepublishinggroup.com"> <meta name="prism.url" content="https://www.sciencepg.com/article/10.11648/j.nano.s.2017050301.24"> <meta name="prism.doi" content="doi:10.11648/j.nano.s.2017050301.24"> <meta name="citation_issn" content="2575-3738"> <meta name="citation_journal_title" content="American Journal of Nano Research and Applications"> <meta name="citation_journal_abbrev" content="Am. 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Appl."> <meta name="citation_publisher" content="Science Publishing Group"> <meta name="citation_title" content="Specific Interface Capacitance of Nanocomposite Materials"> <meta name="citation_publication_date" content="2017/04"> <meta name="citation_online_date" content="2017/04/11"> <meta name="citation_volume" content="5"> <meta name="citation_issue" content="3"> <meta name="citation_firstpage" content="64"> <meta name="citation_lastpage" content="67"> <meta name="citation_fulltext_world_readable" content=""> <meta name="citation_language" content="En"> <meta name="citation_author" content="Levan Chkhartishvili"> <meta name="citation_author" content="Shorena Dekanosidze"> <meta name="citation_author" content="Ramaz Esiava"> <meta name="citation_author" content="Ia Kalandadze"> <meta name="citation_author" content="Dato Nachkebia"> <meta name="citation_author" content="Grisha Tabatadze"> <meta name="citation_doi" content="doi:10.11648/j.nano.s.2017050301.24"> <meta name="citation_id" content="226029020"> <meta name="citation_pdf_url" content="http://article.sciencepg.com/pdf/nano.s.2017050301.24"> <meta name="citation_reference" content="S. 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Chem., Ch. 8, pp. 167-192 (2017)."> <meta name="fulltext_pdf" content="http://article.sciencepg.com/pdf/nano.s.2017050301.24"> <meta property="og:site_name" content="Science Publishing Group"> <meta property="og:type" content="article"> <meta property="og:url" content="https://www.sciencepg.com/article/10.11648/j.nano.s.2017050301.24"> <meta property="og:title" content="Specific Interface Capacitance of Nanocomposite Materials"> <meta property="og:description" content="Based on a model of interfaces existing between particles of different components, there is obtained the formula to estimate the capacitance of nanocapacitors spontaneously built in nanocomposite materials. The specific (per unit area) interface capacitance depends on the material’s characteristics such as: average width of the vacuum gap between the particles of two components, their dielectric constants, absolute values of the space charge average densities in components, and internal voltage corresponding to the difference of work functions of components. The electric capacitance associated with the internal interfaces can significantly affect electronic characteristics and, particularly, dielectric properties of nanocomposite materials."> <head> <meta charset="utf-8"> <meta charset="utf-8"> <link rel="stylesheet" type="text/css" href="/css/font.min.css?v=20241122084834"> <link rel="stylesheet" type="text/css" href="/css/common.min.css?v=20241122084834"> <link rel="stylesheet" type="text/css" href="/css/selectJournalForm.min.css?v=20241122084834"> <link rel="stylesheet" href="/css/all.min.css?v=20241122084834"> <link rel="stylesheet" href="/css/problem_feedback.min.css?v=20241122084834"> <script src="/js/jquery-1.11.3.min.js?v=20241122084834"></script> <script src="/js/clipboard/clipboard.min.js?v=20241122084834"></script> <script src="/js/common.min.js?v=20241122084834"></script> <script src="/js/jquery.sticky-sidebar.min.js?v=20241122084834"></script> <script src="/js/customsize-validate.min.js?v=20241122084834"></script> <script 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3</a> </li> </ul> </nav> </div> </div> <div class="content clearfix"> <div class="article_content_left left"> <input type="hidden" id="articleUniqueID" value="j.nano.s.2017050301.24"> <div class="article_header"> <div class="article_header_top"> <a href="/journal/226/open-access" target="_blank"><img src="/img/oa.png" class="oa"></a> <span>|</span> <a href="/journal/226/peer-review-at-sciencepg" style="color: #00599c; text-decoration: underline;" target="_blank">Peer-Reviewed</a> </div> <h3 class="ArticleTitle">Specific Interface Capacitance of Nanocomposite Materials</h3> <div class="article_author"> <span class="author"> <a href="javascript:;" data-target="#author0" class="AuthorName" >Levan Chkhartishvili</a>,&nbsp; <div class="author_item person-info" id="author0" style="display: none;"> <p class="author_name">Levan Chkhartishvili</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </span><span class="author"> <a href="javascript:;" data-target="#author1" class="AuthorName" >Shorena Dekanosidze</a>,&nbsp; <div class="author_item person-info" id="author1" style="display: none;"> <p class="author_name">Shorena Dekanosidze</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </span><span class="author"> <a href="javascript:;" data-target="#author2" class="AuthorName" >Ramaz Esiava</a>,&nbsp; <div class="author_item person-info" id="author2" style="display: none;"> <p class="author_name">Ramaz Esiava</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </span><span class="author"> <a href="javascript:;" data-target="#author3" class="AuthorName" >Ia Kalandadze</a>,&nbsp; <div class="author_item person-info" id="author3" style="display: none;"> <p class="author_name">Ia Kalandadze</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </span><span class="author"> <a href="javascript:;" data-target="#author4" class="AuthorName" >Dato Nachkebia</a>,&nbsp; <div class="author_item person-info" id="author4" style="display: none;"> <p class="author_name">Dato Nachkebia</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </span><span class="author"> <a href="javascript:;" data-target="#author5" class="AuthorName" >Grisha Tabatadze</a> <div class="author_item person-info" id="author5" style="display: none;"> <p class="author_name">Grisha Tabatadze</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </span> </div> <div class="published"> <span>Published in </span> <a href="/journal/226/home" target="_blank"><i>American Journal of Nano Research and Applications</i></a> (<a href="/journal/226/archive/226029" target="_blank">Volume 5, Issue 3-1</a>) </div> <div class="article_time"> <span>Received: </span>29 March 2017&nbsp;&nbsp;&nbsp;&nbsp; <span>Accepted: </span>30 March 2017&nbsp;&nbsp;&nbsp;&nbsp; <span>Published: </span>11 April 2017 </div> <div class="vd"> <input type="hidden" id="downloadTotalizationUrl" value="https://w.sciencepublishinggroup.com/"> <span>Views:</span> <span class="spanViews"></span>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<span>Downloads:</span> <span class="spanDownloads"></span> </div> <div class="operation clearfix"> <div class="view_more left"> <a href="javascript:;" onclick="downLoadArticle(10022671, &quot;https:\/\/w.sciencepublishinggroup.com\/&quot;, &#39;.spanDownloads&#39;, &quot;https:\/\/article.sciencepublishinggroup.com\/&quot;, &quot;pdf\/nano.s.2017050301.24&quot;, false)" > <i class="fas fa-file-pdf"></i>Download PDF </a> </div> <!--<div class="add_ope right"> <a href="javascript:;"> <p>Add to Mendeley</p> <img src="/img/mendeley_icon.png"> </a> </div>--> <div class="add_ope share_btn left"> 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The specific (per unit area) interface capacitance depends on the material\u2019s characteristics such as: average width of the vacuum gap between the particles of two components, their dielectric constants, absolute values of the space charge average densities in components, and internal voltage corresponding to the difference of work functions of components. The electric capacitance associated with the internal interfaces can significantly affect electronic characteristics and, particularly, dielectric properties of nanocomposite materials.", 200)) linkedInUrl += "&url=" + encodeURIComponent(location.origin + "/" + "article\/10.11648\/j.nano.s.2017050301.24"); var facebookUrl = "https://www.facebook.com/sharer.php?u=" + location.origin + "/" + "article\/10.11648\/j.nano.s.2017050301.24"; </script> </div> </div> </div> </div> </div> <div class="article_body"> <div class="section" id="abstract"> <div class="Abatract">Abstract</div> <p class="AbatractContent">Based on a model of interfaces existing between particles of different components, there is obtained the formula to estimate the capacitance of nanocapacitors spontaneously built in nanocomposite materials. The specific (per unit area) interface capacitance depends on the material’s characteristics such as: average width of the vacuum gap between the particles of two components, their dielectric constants, absolute values of the space charge average densities in components, and internal voltage corresponding to the difference of work functions of components. The electric capacitance associated with the internal interfaces can significantly affect electronic characteristics and, particularly, dielectric properties of nanocomposite materials.</p> </div> <div class="article_basic_info"> <table> <tr> <td> <span>Published in</span> </td> <td> <a href="/journal/226/home" target="_blank"><i>American Journal of Nano Research and Applications</i></a> (<a href="/journal/226/archive/226029" target="_blank">Volume 5, Issue 3-1</a>) <p class="belong_special">This article belongs to the Special Issue <a href="/journal/special-issue/226029" target="_blank"> <i>Nanotechnologies</i> </a> </p> </td> </tr> <tr> <td> <span>DOI</span> </td> <td> <span>10.11648/j.nano.s.2017050301.24</span> </td> </tr> <tr> <td> <span>Page(s)</span> </td> <td>64-67</td> </tr> <tr> <td> <span>Creative Commons</span> </td> <td> <p class="basic_copyright"><img src="/img/copyright_icon2.png"></p> <p>This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (<a href="http://creativecommons.org/licenses/by/4.0/" target="_blank">http://creativecommons.org/licenses/by/4.0/</a>), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. </p> </td> </tr> <tr> <td> <span>Copyright</span> </td> <td> <p>Copyright © The Author(s), 2017. Published by Science Publishing Group</p> </td> </tr> </table> </div> <div class="pre_next_article clearfix"> <div class="pre"> <a href="/article/10.11648/j.nano.s.2017050301.23"><i class="fas fa-chevron-circle-left"></i><span>Previous article</span></a> </div> <div class="next"> <a href="/article/10.11648/j.nano.20170504.11"><span>Next article</span><i class="fas fa-chevron-circle-right"></i></a> </div> </div> <div class="section" id="keywords"> <div class="Keywords">Keywords</div> <p class="KeywordsContent">Capacitance, Nanocomposite, Interface</p> </div> <div class="section" id="references"> <div class="Heading1">References</div> <div class="references"> <table class="normal_table"> <tbody> <tr class="References"> <td>[1] </td> <td style="word-break: break-word;"> S. R. Ekanayake, M. Ford, and M. Cortie, “Metal–insulator– metal (MIM) nanocapacitors and effects of material properties on their operation,” Mater. Forum, vol. 27, pp. 15-20 (2004). </td> </tr> <tr class="References"> <td>[2] </td> <td style="word-break: break-word;"> N. Engheta, A. Salandrino, and A. Alu, “Circuit elements at optical frequencies: Nanoinductors, nanocapacitors, and nanoresistors,” Phys. Rev. Lett., vol. 95, no. 095504 (2005). </td> </tr> <tr class="References"> <td>[3] </td> <td style="word-break: break-word;"> J. I. Sohn, Y.-S. Kim, Ch. Nam, B. K. Cho, T.-Y. Seong, and S. Lee, “Fabrication of high-density arrays of individually isolated nanocapacitors using anodic aluminum oxide templates and carbonnanotubes,” Appl. Phys. Lett., vol. 87, pp. 123115 (2005). </td> </tr> <tr class="References"> <td>[4] </td> <td style="word-break: break-word;"> S. K. Saha, M. Da Silva, Q. Hang, T. Sands, and D.B. Janes, “A nanocapacitor with giant dielectric permittivity,” Nanotechnol., vol. 17, pp. 2284-2288 (2006). </td> </tr> <tr class="References"> <td>[5] </td> <td style="word-break: break-word;"> R. Montelongo, D. 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Lett., vol. 11, no. 213 (2016). </td> </tr> <tr class="References"> <td>[9] </td> <td style="word-break: break-word;"> Q. Li, Ch. Patel, and H. Ardebili, “Mitigating the dead-layer effect in nanocapacitors using graded dielectric films,” Int. J. Smart &amp; Nano Mater., vol. 3, pp. 23-32 (2012). </td> </tr> <tr class="References"> <td>[10] </td> <td style="word-break: break-word;"> G. Shi, Y. Hanlumyuang, Zh. Liu, Y. Gong, W. Gao, B. Li, J. Kono, J. Lou, R. Vajtai, P. Sharma, and P. M. Ajayan, “Boron nitride–grapheme nanocapacitor and theorizing of anomalous size-dependent increase of capacitance,” Nano Lett., vol. 14, pp. 1739-1744 (2014). </td> </tr> <tr class="References"> <td>[11] </td> <td style="word-break: break-word;"> Ch. Hao, B. Yang, F. Wen, J. Xiang, L. Li, W. Wang, Zh. Zeng, B. Xu, Zh. Zhao, Zh. Liu and Y. Tian, “Flexible all-solid-state supercapacitors based on liquid-exfoliated black-phosphorus nanoflakes,” Adv. Mater., vol. 28, pp. 3194-3201 (201). </td> </tr> <tr class="References"> <td>[12] </td> <td style="word-break: break-word;"> M. Stengel and N.A. Spaldin, “Origin of the dielectric dead layer in nanoscale capacitors,” Nature, vol. 443, pp. 679-682 (2006). </td> </tr> <tr class="References"> <td>[13] </td> <td style="word-break: break-word;"> L. S. Chkhartishvili, “Calculation of capacitance of nano-sized capacitors,” In: Mater. 6th All-Russ. Conf. Nanomater.. (NANO 2016), Moscow, Inst. Metallurgy RAS, pp. 436-437 (2016). </td> </tr> <tr class="References"> <td>[14] </td> <td style="word-break: break-word;"> L. Chkhartishvili, M. Beridze, Sh. Dekanosidze, R. Esiava, I. Kalandadze, N. Mamisashvili, and G. Tabatadz, “How to calculate nanocapacitance,” Am. J. Nano Res. Appl., vol. 5(3-1), pp. 9-12 (2017). </td> </tr> <tr class="References"> <td>[15] </td> <td style="word-break: break-word;"> L. Chkhartishvili, A. Gachechiladze, O. Tsagareishvili, and D. Gabunia, “Capacitances built in nanostructures,” In: “Abs. 18th Int. Metall. Mater. Cong.,” Istanbul, ChMME, pp. 243-243 (2016). </td> </tr> <tr class="References"> <td>[16] </td> <td style="word-break: break-word;"> L. S. Chkhartishvili, “Specific interface capacitance in composite,” In: “Proc. 9th Int. Conf. MEE,” 2016, Kyiv, IPMS, pp. 54-54. </td> </tr> <tr class="References"> <td>[17] </td> <td style="word-break: break-word;"> L. Chkhartishvili, “Nanoparticles near-surface electric field,” Nanoscale Res. Lett., vol. 11, no. 48 (2016). </td> </tr> <tr class="References"> <td>[18] </td> <td style="word-break: break-word;"> L. Chkhartishvili. Nanostructure makes crystalline compound physically reactive. Atlas Sci., no. April 14, pp. 1-2 (2016). </td> </tr> <tr class="References"> <td>[19] </td> <td style="word-break: break-word;"> L. Chkhartishvili, L. Sartinska, and Ts. Ramishvili, “Adsorption selectivity of boron nitride nanostructures designed for environmental protection,” In: “Advanced Environmental Analysis: Applications of Nanomaterials,” vol. 1 (Eds. Ch. M. Hussain and B. Kharisov), Cambridge, Royal Soc. Chem., Ch. 8, pp. 167-192 (2017). </td> </tr> </tbody> </table> </div> </div> <div class="section" id="cite_this_article" style="margin-bottom: 20px;"> <div class="Heading1" style="margin-bottom: 26px;">Cite This Article</div> <div class="cite_article"> <div class="mt-tabpage" js-tab="2"> <div class="mt-tabpage-title"> <a class="mt-tabpage-item mt-tabpage-item-cur">Plain Text</a> <a class="mt-tabpage-item">BibTeX</a> <a class="mt-tabpage-item">RIS</a> </div> <div class="mt-tabpage-count"> <ul class="mt-tabpage-cont__wrap"> <li class="mt-tabpage-item"> <div class="tab_div"> <div class="cite_type"> <p class="cite_type_item">APA Style</p> <p class="cite_type_info apa-copy-src">Levan Chkhartishvili, Shorena Dekanosidze, Ramaz Esiava, Ia Kalandadze, Dato Nachkebia, et al. (2017). Specific Interface Capacitance of Nanocomposite Materials. <i>American Journal of Nano Research and Applications</i>, <i>5</i>(3-1), 64-67. https://doi.org/10.11648/j.nano.s.2017050301.24</p> <p class="cite_operation"> <span><a class="apa-copy copy-el" data-clipboard-action="copy" data-clipboard-target=".apa-copy-src" href="javascript:;" ><img src="/img/copy_icon.png">Copy</a></span> <span class="line">|</span> <span><a href="javascript:;" onclick="spgCommon.bindDownloadDataFromEl(&quot;10.11648.j.nano.s.2017050301.24.apa.txt&quot;, &#39;.apa-copy-src&#39;)"><img src="/img/download_icon.png">Download</a></span> </p> </div> <div class="cite_type"> <p class="cite_type_item">ACS Style</p> <p class="cite_type_info acs-copy-src">Levan Chkhartishvili; Shorena Dekanosidze; Ramaz Esiava; Ia Kalandadze; Dato Nachkebia, et al. Specific Interface Capacitance of Nanocomposite Materials. <i>Am. J. Nano Res. 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Specific Interface Capacitance of Nanocomposite Materials. <i>Am J Nano Res Appl</i>. 2017;5(3-1):64-67. doi: 10.11648/j.nano.s.2017050301.24</p> <p class="cite_operation"> <span><a class="ama-copy copy-el" data-clipboard-action="copy" data-clipboard-target=".ama-copy-src" href="javascript:;"><img src="/img/copy_icon.png">Copy</a></span> <span class="line">|</span> <span><a href="javascript:;" onclick="spgCommon.bindDownloadDataFromEl(&quot;10.11648.j.nano.s.2017050301.24.ama.txt&quot;, &#39;.ama-copy-src&#39;)"><img src="/img/download_icon.png">Download</a></span> </p> </div> </div> </li> <li class="mt-tabpage-item"> <div class="tab_div"> <pre _ngcontent-anj-c150="" class="text ris-text bib-copy-src main_content_citetext">@article{10.11648/j.nano.s.2017050301.24, author = {Levan Chkhartishvili and Shorena Dekanosidze and Ramaz Esiava and Ia Kalandadze and Dato Nachkebia and Grisha Tabatadze}, title = {Specific Interface Capacitance of Nanocomposite Materials}, journal = {American Journal of Nano Research and Applications}, volume = {5}, number = {3-1}, pages = {64-67}, doi = {10.11648/j.nano.s.2017050301.24}, url = {https://doi.org/10.11648/j.nano.s.2017050301.24}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.nano.s.2017050301.24}, abstract = {Based on a model of interfaces existing between particles of different components, there is obtained the formula to estimate the capacitance of nanocapacitors spontaneously built in nanocomposite materials. The specific (per unit area) interface capacitance depends on the material’s characteristics such as: average width of the vacuum gap between the particles of two components, their dielectric constants, absolute values of the space charge average densities in components, and internal voltage corresponding to the difference of work functions of components. The electric capacitance associated with the internal interfaces can significantly affect electronic characteristics and, particularly, dielectric properties of nanocomposite materials.}, year = {2017} } </pre> <p class="cite_operation"> <span><a class="bib-copy copy-el" data-clipboard-action="copy" data-clipboard-target=".bib-copy-src" href="javascript:;"><img src="/img/copy_icon.png">Copy</a></span> <span class="line">|</span> <span><a href="javascript:;" onclick="spgCommon.bindDownloadDataFromEl(&quot;10.11648.j.nano.s.2017050301.24.bib&quot;, &#39;.bib-copy-src&#39;)"><img src="/img/download_icon.png">Download</a></span> </p> </div> </li> <li class="mt-tabpage-item"> <div class="tab_div"> <pre _ngcontent-anj-c150="" class="text ris-text ris-copy-src main_content_citetext">TY - JOUR T1 - Specific Interface Capacitance of Nanocomposite Materials AU - Levan Chkhartishvili AU - Shorena Dekanosidze AU - Ramaz Esiava AU - Ia Kalandadze AU - Dato Nachkebia AU - Grisha Tabatadze Y1 - 2017/04/11 PY - 2017 N1 - https://doi.org/10.11648/j.nano.s.2017050301.24 DO - 10.11648/j.nano.s.2017050301.24 T2 - American Journal of Nano Research and Applications JF - American Journal of Nano Research and Applications JO - American Journal of Nano Research and Applications SP - 64 EP - 67 PB - Science Publishing Group SN - 2575-3738 UR - https://doi.org/10.11648/j.nano.s.2017050301.24 AB - Based on a model of interfaces existing between particles of different components, there is obtained the formula to estimate the capacitance of nanocapacitors spontaneously built in nanocomposite materials. The specific (per unit area) interface capacitance depends on the material’s characteristics such as: average width of the vacuum gap between the particles of two components, their dielectric constants, absolute values of the space charge average densities in components, and internal voltage corresponding to the difference of work functions of components. The electric capacitance associated with the internal interfaces can significantly affect electronic characteristics and, particularly, dielectric properties of nanocomposite materials. VL - 5 IS - 3-1 ER - </pre> <p class="cite_operation"> <span><a class="ris-copy copy-el" data-clipboard-action="copy" data-clipboard-target=".ris-copy-src" href="javascript:;"><img src="/img/copy_icon.png">Copy</a></span> <span class="line">|</span> <span><a href="javascript:;" onclick="spgCommon.bindDownloadDataFromEl(&quot;10.11648.j.nano.s.2017050301.24.ris&quot;, &#39;.ris-copy-src&#39;)"><img src="/img/download_icon.png">Download</a></span> </p> </div> </li> </ul> </div> </div> </div> </div> <div class="section" id="author_information" style="margin-top: 0px; margin-bottom: 50px;"> <div class="Heading1" style="margin-bottom: 26px;">Author Information</div> <div class="author_information"> <ul> <li> <div class="author_info"> <p class="article_author_name">Levan Chkhartishvili</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </li> <li> <div class="author_info"> <p class="article_author_name">Shorena Dekanosidze</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </li> <li> <div class="author_info"> <p class="article_author_name">Ramaz Esiava</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </li> <li> <div class="author_info"> <p class="article_author_name">Ia Kalandadze</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </li> <li> <div class="author_info"> <p class="article_author_name">Dato Nachkebia</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </li> <li> <div class="author_info"> <p class="article_author_name">Grisha Tabatadze</p> <p class="Affiliation">Department of Engineering Physics, Georgian Technical University, Tbilisi, Georgia</p> </div> </li> </ul> </div> </div> </div> </div> <div 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(2017). Specific Interface Capacitance of Nanocomposite Materials. <i>American Journal of Nano Research and Applications</i>, <i>5</i>(3-1), 64-67. https://doi.org/10.11648/j.nano.s.2017050301.24</p> <p class="cite_operation"> <span><a class="apa-copy-pop copy-el" data-clipboard-action="copy" data-clipboard-target=".apa-copy-pop-src" href="javascript:;"><img src="/img/copy_icon.png">Copy</a></span> <span class="line">|</span> <span><a href="javascript:;" onclick="spgCommon.bindDownloadDataFromEl(&quot;10.11648.j.nano.s.2017050301.24.apa.txt&quot;, &#39;.apa-copy-pop-src&#39;)"><img src="/img/download_icon.png">Download</a></span> </p> </div> <div class="cite_type_puple"> <p class="cite_type_item">ACS Style</p> <p class="cite_type_info acs-copy-pop-src">Levan Chkhartishvili; Shorena Dekanosidze; Ramaz Esiava; Ia Kalandadze; Dato Nachkebia, et al. Specific Interface Capacitance of Nanocomposite Materials. <i>Am. J. Nano Res. Appl.</i> <b>2017</b>, <i>5</i>(3-1), 64-67. doi: 10.11648/j.nano.s.2017050301.24</p> <p class="cite_operation"> <span><a class="acs-copy-pop copy-el" data-clipboard-action="copy" data-clipboard-target=".acs-copy-pop-src" href="javascript:;"><img src="/img/copy_icon.png">Copy</a></span> <span class="line">|</span> <span><a href="javascript:;" onclick="spgCommon.bindDownloadDataFromEl(&quot;10.11648.j.nano.s.2017050301.24.acs.txt&quot;, &#39;.acs-copy-pop-src&#39;)"><img src="/img/download_icon.png">Download</a></span> </p> </div> <div class="cite_type_puple"> <p class="cite_type_item">AMA Style</p> <p class="cite_type_info ama-copy-pop-src">Levan Chkhartishvili, Shorena Dekanosidze, Ramaz Esiava, Ia Kalandadze, Dato Nachkebia, et al. Specific Interface Capacitance of Nanocomposite Materials. <i>Am J Nano Res Appl</i>. 2017;5(3-1):64-67. doi: 10.11648/j.nano.s.2017050301.24</p> <p class="cite_operation"> <span><a class="ama-copy-pop copy-el" data-clipboard-action="copy" data-clipboard-target=".ama-copy-pop-src" href="javascript:;"><img src="/img/copy_icon.png">Copy</a></span> <span class="line">|</span> <span><a href="javascript:;" onclick="spgCommon.bindDownloadDataFromEl(&quot;10.11648.j.nano.s.2017050301.24.ama.txt&quot;, &#39;.ama-copy-pop-src&#39;)"><img src="/img/download_icon.png">Download</a></span> </p> </div> </div> </li> <li class="mt-tabpage-item puple_cite"> <div class="tab_div"> <pre _ngcontent-anj-c150="" class="text ris-text bib-copy-pop-src">@article{10.11648/j.nano.s.2017050301.24, author = {Levan Chkhartishvili and Shorena Dekanosidze and Ramaz Esiava and Ia Kalandadze and Dato Nachkebia and Grisha Tabatadze}, title = {Specific Interface Capacitance of Nanocomposite Materials}, journal = {American Journal of Nano Research and Applications}, volume = {5}, number = {3-1}, pages = {64-67}, doi = {10.11648/j.nano.s.2017050301.24}, url = {https://doi.org/10.11648/j.nano.s.2017050301.24}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.nano.s.2017050301.24}, abstract = {Based on a model of interfaces existing between particles of different components, there is obtained the formula to estimate the capacitance of nanocapacitors spontaneously built in nanocomposite materials. The specific (per unit area) interface capacitance depends on the material’s characteristics such as: average width of the vacuum gap between the particles of two components, their dielectric constants, absolute values of the space charge average densities in components, and internal voltage corresponding to the difference of work functions of components. The electric capacitance associated with the internal interfaces can significantly affect electronic characteristics and, particularly, dielectric properties of nanocomposite materials.}, year = {2017} } </pre> <p class="cite_operation"> <span><a class="bib-copy-pop copy-el" data-clipboard-action="copy" data-clipboard-target=".bib-copy-pop-src" href="javascript:;"><img src="/img/copy_icon.png">Copy</a></span> <span class="line">|</span> <span><a href="javascript:;" onclick="spgCommon.bindDownloadDataFromEl(&quot;10.11648.j.nano.s.2017050301.24.bib&quot;, &#39;.bib-copy-pop-src&#39;)"><img src="/img/download_icon.png">Download</a></span> </p> </div> </li> <li class="mt-tabpage-item puple_cite"> <div class="tab_div"> <pre _ngcontent-anj-c150="" class="text ris-text ris-copy-pop-src">TY - JOUR T1 - Specific Interface Capacitance of Nanocomposite Materials AU - Levan Chkhartishvili AU - Shorena Dekanosidze AU - Ramaz Esiava AU - Ia Kalandadze AU - Dato Nachkebia AU - Grisha Tabatadze Y1 - 2017/04/11 PY - 2017 N1 - https://doi.org/10.11648/j.nano.s.2017050301.24 DO - 10.11648/j.nano.s.2017050301.24 T2 - American Journal of Nano Research and Applications JF - American Journal of Nano Research and Applications JO - American Journal of Nano Research and Applications SP - 64 EP - 67 PB - Science Publishing Group SN - 2575-3738 UR - https://doi.org/10.11648/j.nano.s.2017050301.24 AB - Based on a model of interfaces existing between particles of different components, there is obtained the formula to estimate the capacitance of nanocapacitors spontaneously built in nanocomposite materials. The specific (per unit area) interface capacitance depends on the material’s characteristics such as: average width of the vacuum gap between the particles of two components, their dielectric constants, absolute values of the space charge average densities in components, and internal voltage corresponding to the difference of work functions of components. The electric capacitance associated with the internal interfaces can significantly affect electronic characteristics and, particularly, dielectric properties of nanocomposite materials. VL - 5 IS - 3-1 ER - </pre> <p class="cite_operation"> <span><a class="ris-copy-pop copy-el" data-clipboard-action="copy" data-clipboard-target=".ris-copy-pop-src" href="javascript:;"><img src="/img/copy_icon.png">Copy</a></span> <span class="line">|</span> <span><a href="javascript:;" onclick="spgCommon.bindDownloadDataFromEl(&quot;10.11648.j.nano.s.2017050301.24.ris&quot;, &#39;.ris-copy-pop-src&#39;)"><img src="/img/download_icon.png">Download</a></span> </p> </div> </li> </ul> </div> </div> </div> </div> <div class="modal-footer"> <button type="button" class="btn btn-secondary" data-dismiss="modal">Cancel</button> </div> </div> </div> </div> <div class="modal fade" id="downloadValidationModal" tabindex="-1" aria-labelledby="exampleModalScrollableTitle" aria-hidden="true"> <div class="modal-dialog modal-dialog-scrollable modal-lg modal-dialog-centered"> <div class="modal-content"> <div class="modal-header"> <h5 class="modal-title">Verification Code</h5> <button type="button" 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