{"id":9690,"date":"2020-08-11T13:29:25","date_gmt":"2020-08-11T05:29:25","guid":{"rendered":"https:\/\/battery9999.com\/en\/?p=9690"},"modified":"2020-08-11T13:38:50","modified_gmt":"2020-08-11T05:38:50","slug":"redesigning-lithium-ion-battery-anodes-for-better-performance","status":"publish","type":"post","link":"https:\/\/battery9999.com\/en\/redesigning-lithium-ion-battery-anodes-for-better-performance\/","title":{"rendered":"Redesigning lithium-ion battery anodes for better performance"},"content":{"rendered":"<p>By Victoria Martin <span class=\"divider\"><time datetime=\"2020-07-27T12:00:00Z\">July 27, 2020<\/time><\/span><\/p>\n<p><img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-medium wp-image-9692\" src=\"https:\/\/battery9999.com\/wp-content\/uploads\/2020\/08\/1-3-300x169.jpg\" alt=\"\" width=\"300\" height=\"169\" \/><\/p>\n<p><!--more--><\/p>\n<p>With the growing number of electric vehicles on the road and an increasing reliance on consumer electronics, demand has never been greater for development of lithium-ion batteries (LIBs) that can sustain a higher energy capacity, or amount of charge stored within the battery.<\/p>\n<p>One way to increase the overall energy capacity of LIBs is to increase the energy capacity of the anode, or the negative electrode. For the past several decades, state-of-the-art LIBs have been made with graphite anodes. Graphite\u2019s energy capacity is stable, meaning the capacity does not fade, and the material does not crack even after more than <span class=\"numbers\">1000<\/span> full charge-discharge cycles. However, graphite has a low theoretical energy capacity, which cannot meet the increasing energy demands of today\u2019s society.<\/p>\n<blockquote><p><span class=\"dquo\">\u201c<\/span>Argonne has unique abilities available at the <span class=\"caps\">APS<\/span> and <span class=\"caps\">CNM<\/span>. With the storage ring light source, we can probe the phase transformation during lithiation and delithiation, which allows us to see the reaction reversibility.\u201d \u2014 Gui-Liang Xu, Argonne chemist<\/p><\/blockquote>\n<p>In a new study, a team led by researchers at the U.S. Department of Energy\u2019s (<span class=\"caps\">DOE<\/span>) Argonne National Laboratory have demonstrated the increased capability of a potential new, higher-capacity anode material. This composite material had <a href=\"https:\/\/pubs.acs.org\/doi\/10.1021\/acs.nanolett.6b01777\">originally been developed for sodium-ion batteries<\/a>, which are more infrequently commercially used than lithium-ion batteries. This new study sought to apply the material to lithium-ion batteries.<\/p>\n<p>Recently, two materials have been at the forefront of research for next-generation battery anodes \u2014 silicon and phosphorus. Both silicon and phosphorus have a theoretical energy capacity at least <span class=\"numbers\">10<\/span> times greater than graphite, meaning they could surpass the energy capacity requirements for LIBs. According to senior materials scientist and Argonne Distinguished Fellow Khalil Amine, the lead researcher of the Argonne study, silicon has two major issues. The first issue involves the high-volume expansion when silicon is lithiated during charging, which would likely cause the anode material to break apart. Cracking would lead to a loss of energy capacity, he explained.<\/p>\n<p>The second issue involves a term called initial coulombic efficiency (<span class=\"caps\">ICE<\/span>). When a battery goes through a full charge-discharge cycle, the charge output of the battery theoretically should match the charge input. However, some energy in the charge output is lost to the lithium reacting with the anode material. To develop a practical <span class=\"caps\">LIB<\/span>, the ratio of the charge output compared to the charge input on the first charge-discharge cycle should be above <span class=\"numbers\">90<\/span>%. This ratio is the <span class=\"caps\">ICE<\/span>. With silicon, the <span class=\"caps\">ICE<\/span> is less than <span class=\"numbers\">80<\/span>%, which Amine explained renders it infeasible for practical use.<\/p>\n<p>In their research, Amine, Argonne chemist Gui-Liang Xu, and their colleagues explored two potential types of phosphorus: black and red phosphorus. \u200b<span class=\"pull-double\">\u201c<\/span>Phosphorus has a very high energy capacity,\u201d Xu said. \u200b<span class=\"pull-double\">\u201c<\/span>When we explored the material, we found that our anode material has a very high <span class=\"caps\">ICE<\/span> of more than <span class=\"numbers\">90<\/span>%.\u201d<\/p>\n<p>An <span class=\"caps\">ICE<\/span> of more than <span class=\"numbers\">90<\/span>% demonstrates that very few side reactions occur between the anode material and the electrolyte, so not much lithium is lost during the initial charging and discharging.<\/p>\n<p>The team created their own anode composite composed primarily of black phosphorus \u2014 a highly conductive form of phosphorus with a high theoretical capacity \u2014 and conductive carbon compounds.<\/p>\n<p>To create the composite, the researchers ground the bulk phosphorus material and conductive carbon into micrometer-sized particles, which increases the density of the anode.<\/p>\n<p>When measuring the life cycles, or the total number of times a battery can be charged and discharged, Amine and his colleagues turned to Argonne\u2019s Advanced Photon Source (<span class=\"caps\">APS<\/span>) and Center for Nanoscale Materials (<span class=\"caps\">CNM<\/span>), both <span class=\"caps\">DOE<\/span> Office of Science User Facilities. Employing in-situ storage ring light source X-ray diffraction at the <span class=\"caps\">APS<\/span> and in-situ scanning electron microscopy at the <span class=\"caps\">CNM<\/span>, the team observed the anode\u2019s phase and volume transformation during repeated charging and discharging.<\/p>\n<p><span class=\"dquo\">\u201c<\/span>Argonne has unique abilities available at the <span class=\"caps\">APS<\/span> and <span class=\"caps\">CNM<\/span>,\u201d Xu said. \u200b<span class=\"pull-double\">\u201c<\/span>With the storage ring light source, we can probe the phase transformation during lithiation and delithiation, which allows us to see the reaction reversibility.\u201d<\/p>\n<p>After showing the stability of the black phosphorous composite, the team investigated a composite with red phosphorus instead of black phosphorus. Black phosphorus, though significantly more conductive than red phosphorus, is too expensive for practical use in the market. With the red phosphorus composite, which is an economically viable option, the battery showed a similar stability and high <span class=\"caps\">ICE<\/span>, with a very high practical capacity.<\/p>\n<p>The team is currently working on a composite material made mostly of red phosphorus, and the material shows promising results, Xu said. \u200b<span class=\"pull-double\">\u201c<\/span>We\u2019re trying to initiate collaboration with industry partners so we can scale up this material, so it can be commercialized in the future.\u201d<\/p>\n<p>The research paper on the study, \u200b<span class=\"pull-double\">\u201c<\/span><a href=\"https:\/\/www.sciencedirect.com\/science\/article\/abs\/pii\/S2211285520304067\">A practical phosphorus-based anode material for high-energy lithium-ion batteries<\/a>,\u201d appeared online on April <span class=\"numbers\">26<\/span>, <span class=\"numbers\">2020<\/span>, in Nano Energy. The research project was funded by the Battery Materials Research Program in <span class=\"caps\">DOE<\/span>\u2019s Office of Energy Efficiency and Renewable Energy, Vehicle Technologies Office.<\/p>\n<p>Source:<a href=\"https:\/\/www.anl.gov\/article\/redesigning-lithiumion-battery-anodes-for-better-performance\">Redesigning lithium-ion battery anodes for better performance<\/a><\/p>\n<p>&nbsp;<\/p>\n","protected":false},"excerpt":{"rendered":"<p>By Victoria Martin July 27, 2020<\/p>\n","protected":false},"author":12,"featured_media":0,"comment_status":"closed","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[113],"tags":[],"class_list":["post-9690","post","type-post","status-publish","format-standard","hentry","category-industrial-news"],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v24.4 - https:\/\/yoast.com\/wordpress\/plugins\/seo\/ -->\n<title>Redesigning lithium-ion battery anodes for better performance - 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