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On the mechanisms of reversible magnesium deposition processes

Magnesium deposition processes from ethereal solutions of Grignard salts of the RMgX type (R = alkyl, aryl groups and X = halide; Cl, Br), and complexes of the Mg(AX sub 4-n R sub n' R' sub n'' ) sub 2 type (A = Al, B, X = halide; R,R' = alkyl or aryl groups and n' + n&...

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Published in:	Journal of the Electrochemical Society 2001-09, Vol.148 (9), p.A1004-A1014
Main Authors:	AURBACH, Doron, SCHECHTER, Alexander, MOSHKOVICH, Moty, COHEN, Yair
Format:	Article
Language:	English
Subjects:	Applied 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
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cited_by	cdi_FETCH-LOGICAL-c353t-7c5e8204e1453b028c979498853d504da4ca490900498c67f07a963cada518823
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creator	AURBACH, Doron SCHECHTER, Alexander MOSHKOVICH, Moty COHEN, Yair
description	Magnesium deposition processes from ethereal solutions of Grignard salts of the RMgX type (R = alkyl, aryl groups and X = halide; Cl, Br), and complexes of the Mg(AX sub 4-n R sub n' R' sub n'' ) sub 2 type (A = Al, B, X = halide; R,R' = alkyl or aryl groups and n' + n'' = n) were investigated. These complexes can be considered as interaction products between R'RMg bases and AX sub 3-n R sub n' R' sub n'' Lewis acids. The use of such complexes in ether solvents enables solutions of high anodic stability to be obtained, which can be suitable for rechargeable Mg battery systems. In situ scanning tunneling microscopy, scanning electron microscopy in conjunction with element analysis by dispersive X-ray, electrochemical quartz crystal microbalance, and impedance spectroscopy were used. Mg deposition in all the solutions studied initially form a porous deposit that becomes compact and crystalline as the process continues. It was found that the morphology of Mg deposition is strongly dependent on the solution's composition. This is because these processes are accompanied by adsorption processes. The specific adsorbed species in each solution probably influence the nucleation processes and thus affect the final morphology of Mg deposition in each solution. There is a clear correlation between the morphology of these processes and the cycling efficiency of Mg anodes measured in each solution. The results thus obtained are important for R and D of rechargeable Mg battery systems.
doi_str_mv	10.1149/1.1387980
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These complexes can be considered as interaction products between R'RMg bases and AX sub 3-n R sub n' R' sub n'' Lewis acids. The use of such complexes in ether solvents enables solutions of high anodic stability to be obtained, which can be suitable for rechargeable Mg battery systems. In situ scanning tunneling microscopy, scanning electron microscopy in conjunction with element analysis by dispersive X-ray, electrochemical quartz crystal microbalance, and impedance spectroscopy were used. Mg deposition in all the solutions studied initially form a porous deposit that becomes compact and crystalline as the process continues. It was found that the morphology of Mg deposition is strongly dependent on the solution's composition. This is because these processes are accompanied by adsorption processes. The specific adsorbed species in each solution probably influence the nucleation processes and thus affect the final morphology of Mg deposition in each solution. 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These complexes can be considered as interaction products between R'RMg bases and AX sub 3-n R sub n' R' sub n'' Lewis acids. The use of such complexes in ether solvents enables solutions of high anodic stability to be obtained, which can be suitable for rechargeable Mg battery systems. In situ scanning tunneling microscopy, scanning electron microscopy in conjunction with element analysis by dispersive X-ray, electrochemical quartz crystal microbalance, and impedance spectroscopy were used. Mg deposition in all the solutions studied initially form a porous deposit that becomes compact and crystalline as the process continues. It was found that the morphology of Mg deposition is strongly dependent on the solution's composition. This is because these processes are accompanied by adsorption processes. The specific adsorbed species in each solution probably influence the nucleation processes and thus affect the final morphology of Mg deposition in each solution. There is a clear correlation between the morphology of these processes and the cycling efficiency of Mg anodes measured in each solution. The results thus obtained are important for R and D of rechargeable Mg battery systems.</description><subject>Applied 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><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>AURBACH, Doron</creatorcontrib><creatorcontrib>SCHECHTER, Alexander</creatorcontrib><creatorcontrib>MOSHKOVICH, Moty</creatorcontrib><creatorcontrib>COHEN, Yair</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>METADEX</collection><collection>Technology Research Database</collection><collection>Materials Research Database</collection><jtitle>Journal of the Electrochemical Society</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>AURBACH, Doron</au><au>SCHECHTER, Alexander</au><au>MOSHKOVICH, Moty</au><au>COHEN, Yair</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>On the mechanisms of reversible magnesium deposition processes</atitle><jtitle>Journal of the Electrochemical Society</jtitle><date>2001-09-01</date><risdate>2001</risdate><volume>148</volume><issue>9</issue><spage>A1004</spage><epage>A1014</epage><pages>A1004-A1014</pages><issn>0013-4651</issn><eissn>1945-7111</eissn><coden>JESOAN</coden><abstract>Magnesium deposition processes from ethereal solutions of Grignard salts of the RMgX type (R = alkyl, aryl groups and X = halide; Cl, Br), and complexes of the Mg(AX sub 4-n R sub n' R' sub n'' ) sub 2 type (A = Al, B, X = halide; R,R' = alkyl or aryl groups and n' + n'' = n) were investigated. These complexes can be considered as interaction products between R'RMg bases and AX sub 3-n R sub n' R' sub n'' Lewis acids. The use of such complexes in ether solvents enables solutions of high anodic stability to be obtained, which can be suitable for rechargeable Mg battery systems. In situ scanning tunneling microscopy, scanning electron microscopy in conjunction with element analysis by dispersive X-ray, electrochemical quartz crystal microbalance, and impedance spectroscopy were used. Mg deposition in all the solutions studied initially form a porous deposit that becomes compact and crystalline as the process continues. It was found that the morphology of Mg deposition is strongly dependent on the solution's composition. This is because these processes are accompanied by adsorption processes. The specific adsorbed species in each solution probably influence the nucleation processes and thus affect the final morphology of Mg deposition in each solution. There is a clear correlation between the morphology of these processes and the cycling efficiency of Mg anodes measured in each solution. The results thus obtained are important for R and D of rechargeable Mg battery systems.</abstract><cop>Pennington, NJ</cop><pub>Electrochemical Society</pub><doi>10.1149/1.1387980</doi></addata></record>
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source	Institute of Physics:Jisc Collections:IOP Publishing Read and Publish 2024-2025 (Reading List)
subjects	Applied 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
title	On the mechanisms of reversible magnesium deposition processes
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