X-ray absorption spectroscopy study of the structural and electronic changes upon cycling of LiNiVO4 as a battery electrode

LiNiVO4 is among the transition metal oxides which are candidates as negative electrode materials in lithium-ion batteries. This study describes the cycling behavior of LiNiVO4 synthesized by a soft chemistry method, X-ray absorption spectroscopy has been used to characterize the structural and elec...

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Veröffentlicht in:	Journal of the Electrochemical Society 2001-08, Vol.148 (8), p.A869-A877
Hauptverfasser:	ROSSIGNOL, C, OUVRARD, G, BAUDRIN, E
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Chemical Sciences Direct energy conversion and energy accumulation Electrical engineering. Electrical power engineering Electrical power engineering Electrochemical conversion: primary and secondary batteries, fuel cells Exact sciences and technology Material chemistry
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container_end_page	A877
container_issue	8
container_start_page	A869
container_title	Journal of the Electrochemical Society
container_volume	148
creator	ROSSIGNOL, C OUVRARD, G BAUDRIN, E
description	LiNiVO4 is among the transition metal oxides which are candidates as negative electrode materials in lithium-ion batteries. This study describes the cycling behavior of LiNiVO4 synthesized by a soft chemistry method, X-ray absorption spectroscopy has been used to characterize the structural and electronic modifications induced in the first cycle of a LiNiVO4/Li battery. The experiments were performed at both vanadium and nickel K edges. During the first discharge, the vanadium atoms shift from their pristine tetrahedral sites to distorted octahedra, and a short Ni-Ni distance occurs. During the recharge, the vanadium comes back to a tetrahedral environment. At the same time, the short Ni-Ni distance is always observed. Changes in the edge indicate that both vanadium and nickel are reduced upon lithiation. Vanadium is reduced reversibly at oxidation state two. Nickel reaches a very low oxidation state close to zero and does not recover the pristine oxidation state two upon charging.
doi_str_mv	10.1149/1.1382590
format	Article
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This study describes the cycling behavior of LiNiVO4 synthesized by a soft chemistry method, X-ray absorption spectroscopy has been used to characterize the structural and electronic modifications induced in the first cycle of a LiNiVO4/Li battery. The experiments were performed at both vanadium and nickel K edges. During the first discharge, the vanadium atoms shift from their pristine tetrahedral sites to distorted octahedra, and a short Ni-Ni distance occurs. During the recharge, the vanadium comes back to a tetrahedral environment. At the same time, the short Ni-Ni distance is always observed. Changes in the edge indicate that both vanadium and nickel are reduced upon lithiation. Vanadium is reduced reversibly at oxidation state two. Nickel reaches a very low oxidation state close to zero and does not recover the pristine oxidation state two upon charging.</description><identifier>ISSN: 0013-4651</identifier><identifier>EISSN: 1945-7111</identifier><identifier>DOI: 10.1149/1.1382590</identifier><identifier>CODEN: JESOAN</identifier><language>eng</language><publisher>Pennington, NJ: Electrochemical Society</publisher><subject>Applied sciences ; Chemical Sciences ; Direct energy conversion and energy accumulation ; Electrical engineering. 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This study describes the cycling behavior of LiNiVO4 synthesized by a soft chemistry method, X-ray absorption spectroscopy has been used to characterize the structural and electronic modifications induced in the first cycle of a LiNiVO4/Li battery. The experiments were performed at both vanadium and nickel K edges. During the first discharge, the vanadium atoms shift from their pristine tetrahedral sites to distorted octahedra, and a short Ni-Ni distance occurs. During the recharge, the vanadium comes back to a tetrahedral environment. At the same time, the short Ni-Ni distance is always observed. Changes in the edge indicate that both vanadium and nickel are reduced upon lithiation. Vanadium is reduced reversibly at oxidation state two. Nickel reaches a very low oxidation state close to zero and does not recover the pristine oxidation state two upon charging.</description><subject>Applied sciences</subject><subject>Chemical Sciences</subject><subject>Direct energy conversion and energy accumulation</subject><subject>Electrical engineering. 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Electrical power engineering</topic><topic>Electrical power engineering</topic><topic>Electrochemical conversion: primary and secondary batteries, fuel cells</topic><topic>Exact sciences and technology</topic><topic>Material chemistry</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>ROSSIGNOL, C</creatorcontrib><creatorcontrib>OUVRARD, G</creatorcontrib><creatorcontrib>BAUDRIN, E</creatorcontrib><collection>Pascal-Francis</collection><collection>Hyper Article en Ligne (HAL)</collection><jtitle>Journal of the Electrochemical Society</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>ROSSIGNOL, C</au><au>OUVRARD, G</au><au>BAUDRIN, E</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>X-ray absorption spectroscopy study of the structural and electronic changes upon cycling of LiNiVO4 as a battery electrode</atitle><jtitle>Journal of the Electrochemical Society</jtitle><date>2001-08-01</date><risdate>2001</risdate><volume>148</volume><issue>8</issue><spage>A869</spage><epage>A877</epage><pages>A869-A877</pages><issn>0013-4651</issn><eissn>1945-7111</eissn><coden>JESOAN</coden><abstract>LiNiVO4 is among the transition metal oxides which are candidates as negative electrode materials in lithium-ion batteries. This study describes the cycling behavior of LiNiVO4 synthesized by a soft chemistry method, X-ray absorption spectroscopy has been used to characterize the structural and electronic modifications induced in the first cycle of a LiNiVO4/Li battery. The experiments were performed at both vanadium and nickel K edges. During the first discharge, the vanadium atoms shift from their pristine tetrahedral sites to distorted octahedra, and a short Ni-Ni distance occurs. During the recharge, the vanadium comes back to a tetrahedral environment. At the same time, the short Ni-Ni distance is always observed. Changes in the edge indicate that both vanadium and nickel are reduced upon lithiation. Vanadium is reduced reversibly at oxidation state two. Nickel reaches a very low oxidation state close to zero and does not recover the pristine oxidation state two upon charging.</abstract><cop>Pennington, NJ</cop><pub>Electrochemical Society</pub><doi>10.1149/1.1382590</doi><orcidid>https://orcid.org/0000-0001-9551-6859</orcidid></addata></record>
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subjects	Applied sciences Chemical Sciences Direct energy conversion and energy accumulation Electrical engineering. Electrical power engineering Electrical power engineering Electrochemical conversion: primary and secondary batteries, fuel cells Exact sciences and technology Material chemistry
title	X-ray absorption spectroscopy study of the structural and electronic changes upon cycling of LiNiVO4 as a battery electrode
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