{"id":4729,"date":"2017-11-03T09:00:00","date_gmt":"2017-11-03T16:00:00","guid":{"rendered":"https:\/\/dornsife.usc.edu\/news\/stories\/a-new-miniature-solution-for-storing-renewable-energy\/"},"modified":"2023-04-19T11:08:53","modified_gmt":"2023-04-19T18:08:53","slug":"a-new-miniature-solution-for-storing-renewable-energy","status":"publish","type":"post","link":"https:\/\/dornsife.usc.edu\/news\/stories\/a-new-miniature-solution-for-storing-renewable-energy\/","title":{"rendered":"A new miniature solution for storing renewable energy"},"content":{"rendered":"\n\n\n    \n            \n\n  \n    \n\n\n\n\n\n\n<div\n  class=\"cc--component-container cc--article-hero \"\n\n  \n  \n  \n  \n  \n  \n  >\n  <div class=\"c--component c--article-hero\"\n    \n      >\n\n    \n<div class=\"inner-wrapper\">\n          \n<div class=\"f--field f--image\">\n\n    \n    \n    \n    \n    \n    \n              \n      <img\n                            data-src=\"https:\/\/dornsife.usc.edu\/news\/wp-content\/uploads\/sites\/7\/2023\/04\/story-2696-690x432.jpg\"\n                    data-sizes=\"(min-width:1200px) 75vw, (min-width:768px) 83vw, 100vw\"          class=\"lazyload\"\n        \n                  alt=\"A new miniature solution for storing renewable energy\"\n        \n        \n                                      \/>\n\n    \n    \n  \n  \n\n<\/div>\n  \n      <div class=\"image-caption\">\n          \n<div class=\"f--field f--description\">\n\n    \n  The cobalt-based metal-organic framework used by the USC scientists, with purple representing cobalt, yellow representing sulfur and gray representing carbon. Image courtesy of Smaranda Marinescu.\n\n\n<\/div>\n    <\/div>\n  \n  <div class=\"text-wrapper\">\n          <nav aria-label=\"Breadcrumb\" class=\"breadcrumbs\">\n        <ul>\n                      <li><a href=\"\/news\/stories\/\">News<\/a><\/li>\n                      <li><a href=\"\/news\/stories\/\/?category=faculty\">Faculty<\/a><\/li>\n                  <\/ul>\n      <\/nav>\n    \n              \n<div class=\"f--field f--page-title\">\n\n    \n  <h1>A new miniature solution for storing renewable energy<\/h1>\n\n\n<\/div>\n    \n          <div class=\"subtitle\">\n            \n<div class=\"f--field f--description\">\n\n    \n  USC Dornsife chemists find that novel two-dimensional, metal-organic hybrids efficiently conduct charge, eventually storing wind, solar and other renewable energies.\n\n\n<\/div>\n      <\/div>\n    \n           <strong class=\"author-field\"><span >By<\/span><a href=\"mailto:communication@dornsife.usc.edu\">Ian Chaffee<\/a><\/strong>\n    \n          <span class=\"post-date-field\">November 3, 2017<\/span>\n      <\/div>\n<\/div>\n\n\n  <\/div><\/div>\n\n  \n    \n\n\n\n\n\n\n<div\n  class=\"cc--component-container cc--social-share \"\n\n  \n  \n  \n  \n  \n  \n  >\n  <div class=\"c--component c--social-share\"\n    \n      >\n\n    \n  <div class=\"content-wrapper\">\n    <span class=\"a2a_kit a2a_kit_size_32 addtoany_list\" style=\"line-height: 32px;\">\n      <span class=\"title\">\n        Share\n      <\/span>\n                        <a class=\"a2a_button_copy_link\" target=\"_blank\" href=\"\/#copy_link\" rel=\"nofollow noopener\" title=\"Link\">\n            <span class=\"a2a_svg a2a_s__default a2a_s_copy_link\">\n              <svg height=\"19\" viewBox=\"0 0 19 19\" width=\"19\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"m7.43475275 9.52380952-2.17490843 2.26076008c-1.08745421 1.058837-1.68841575 2.518315-1.68841575 4.0350275 0 1.5167124.60096154 2.9475732 1.68841575 4.0350274 1.058837 1.0874543 2.51831502 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xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"m8.14285714 9.42857143c-.17142857 0-.34285714 0-.51428571.08571428l7.28571427 6.34285719c.3428572.2571428.6857143.2571428.9428572 0l7.2857142-6.34285719c-.0857142-.08571428-.2571428-.08571428-.4285714-.08571428zm-1.28571428 1.11428567v.1714286 8.5714286c0 .6857143.6 1.2857143 1.28571428 1.2857143h14.57142856c.6857143 0 1.2857143-.6 1.2857143-1.2857143v-8.5714286c0-.0857143 0-.0857143 0-.1714286l-7.2 6.3428572c-.7714286.6857143-1.8857143.6857143-2.6571429 0z\" fill-rule=\"evenodd\" transform=\"translate(-6 -9)\"\/><\/svg>\n            <\/span>\n            <span class=\"a2a_label visually-hidden\">Email<\/span>\n          <\/a>\n                  <\/span>\n  <\/div>\n\n  <\/div><\/div>\n  \n\n  \n    \n\n\n\n\n\n\n<div\n  class=\"cc--component-container cc--rich-text \"\n\n  \n  \n  \n  \n  \n  \n  >\n  <div class=\"c--component c--rich-text\"\n    \n      >\n\n    \n      \n<div class=\"f--field f--wysiwyg\">\n\n    \n  <p>Scientists have long searched for the next generation of materials that can catalyze a revolution in renewable energy harvesting and storage.<\/p>\n<p>One candidate appears to be metal-organic frameworks. Scientists have used these very small, flexible, ultra-thin, super-porous crystalline structures to do everything from capturing and converting carbon into fuels to storing hydrogen and other gases. Their biggest drawback has been their lack of conductivity.<\/p>\n<p>Now, according to USC Dornsife scientists, it turns out that metal-organic frameworks can conduct electricity in the same way metals do.<\/p>\n<div class=\"news-image-portrait news-image-left\"><img decoding=\"async\" src=\"\/wp-content\/uploads\/sites\/7\/migration-uploads\/Metal-Organic3-2696.jpg\" alt=\"Portrait Left\"><\/p>\n<p>Image courtesy of Brent Melot.<\/p>\n<\/div>\n<p>This finding opens the door for metal-organic frameworks to one day efficiently store renewable energy at a very large, almost unthinkable scale.<\/p>\n<p>&ldquo;For the first time ever, we have demonstrated a metal-organic framework that exhibits conductivity like that of a metal. The natural porosity of the metal-organic framework makes it ideal for reducing the mass of material, allowing for lighter, more compact devices&rdquo; said <a href=\"http:\/\/chem.usc.edu\/faculty\/Melot.html\" target=\"_blank\">Brent Melot<\/a>, assistant professor of chemistry at USC Dornsife.<\/p>\n<p>&ldquo;Metallic conductivity in tandem with other catalytic properties would add to its potential for renewable energy production and storage,&rdquo; said <a href=\"http:\/\/chem.usc.edu\/faculty\/Marinescu.html\" target=\"_blank\">Smaranda Marinescu<\/a>, assistant professor of chemistry.<\/p>\n<p>Their findings were published in the <em>Journal of the American Chemical Society<\/em>.<\/p>\n<p><strong>An emerging catalyst for long-term renewable energy storage<\/strong><\/p>\n<p>Metal-organic frameworks are so porous that they are well-suited for absorbing and storing gases like hydrogen and carbon dioxide. Their storage is highly concentrated: 1 gram of surface area provides the equivalent of thousands of square feet in storage.<\/p>\n<p>Solar has not yet been maximized as an energy source. Earth receives more energy from one hour of sunlight than is consumed in one year by the entire planet, but there is currently no way to use this energy because there is no way to conserve all of it. This intermittency is intrinsic to nearly all renewable power sources, making it impossible to harvest and store energy unless, say, the sun is shining or the wind is blowing.<\/p>\n<p>If scientists and industries could one day regularly reproduce the capability demonstrated by Marinescu, it would go a long way to reducing intermittency, allowing us to finally make solar energy an enduring and more permanent resource.<\/p>\n<div class=\"news-image-portrait news-image-right\"><img decoding=\"async\" src=\"\/wp-content\/uploads\/sites\/7\/migration-uploads\/Metal-Organic2-2696.jpg\" alt=\"Portrait Right\" width=\"225\"><\/p>\n<p>Image courtesy of Smaranda Marinescu.<\/p>\n<\/div>\n<p><strong>Metal or semiconductor: Why not both?<\/strong><\/p>\n<p>Metal-organic frameworks are two-dimensional structures that contain cobalt, sulfur and carbon atoms. In many ways, they very broadly resemble something like graphene, which is also a very thin layer of two-dimensional, transparent material.<\/p>\n<p>As temperature goes down, metals become more conductive. Conversely, as the temperature goes up, it is semiconductors that become more conductive.<\/p>\n<p>In the experiments run by Marinescu&rsquo;s group, the researchers used a cobalt-based metal-organic framework that mimicked the conductivity of both a metal and semiconductor at different temperatures. The metal-organic framework designed by the scientists demonstrated its greatest conductivity at both very low and very high temperatures.<\/p>\n<p><strong>About the study<\/strong><\/p>\n<p>Study authors include lead author and USC Dornsife graduate student Andrew Clough, USC Dornsife graduate student Courtney Downes, summer student Ashley de la Rosa and former USC Dornsife undergraduate Joseph Yoo. Jonathan Skelton of the University of Bath and Aron Walsh of Imperial College London were co-authors. The research was funded by USC Dornsife and Women in Science and Engineering, and by the U.S. Office of Naval Research.<\/p>\n\n\n\n<\/div>\n\n\n  <\/div><\/div>\n","protected":false},"excerpt":{"rendered":"<p>USC Dornsife chemists find that novel two-dimensional, metal-organic hybrids efficiently conduct charge, eventually storing wind, solar and other renewable energies.<\/p>\n","protected":false},"author":0,"featured_media":4732,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[10,15],"tags":[695,78,731],"class_list":["post-4729","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-faculty","category-sustainability","tag-brent-melot","tag-chemistry","tag-smaranda-marinescu"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v27.1.1 - https:\/\/yoast.com\/product\/yoast-seo-wordpress\/ -->\n<title>A new miniature 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