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Front Cover: Improved Redox Reaction of Lithium Polysulfides on the Interfacial Boundary of Polar CoC2O4 as a Polysulfide Catenator for a High‐Capacity Lithium‐Sulfur Battery (ChemSusChem 3/2021)
ChemSusChem ( IF 7.5 ) Pub Date : 2021-01-19 , DOI: 10.1002/cssc.202100019 Jin Won Kim 1, 2 , Gyuwon Seo 1 , Sungyool Bong 1, 2 , Jaeyoung Lee 1, 2
ChemSusChem ( IF 7.5 ) Pub Date : 2021-01-19 , DOI: 10.1002/cssc.202100019 Jin Won Kim 1, 2 , Gyuwon Seo 1 , Sungyool Bong 1, 2 , Jaeyoung Lee 1, 2
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The Front Cover shows how the cobalt oxalates faced on the conductive carbon can act as an electrocatalyst to facilitate the redox reaction of lithium polysulfide at the cathode interface in lithium–sulfur batteries. The lithium polysulfides, produced in the middle of an electrochemical reaction, can be adsorbed on the interfacial boundary area contacted with carbons and cobalt oxalates. Then, the adsorbed lithium polysulfides convert to thiosulfate and polythionate. More information can be found in the Full Paper by J.‐W. Kim et al.
中文翻译:
前封面:改进了作为高容量锂硫电池多硫化物催化剂的极性CoC2O4界面上多硫化锂的氧化还原反应(ChemSusChem 3/2021)
前盖显示了面对导电碳的草酸钴如何充当电催化剂,以促进锂硫电池正极界面上多硫化锂的氧化还原反应。在电化学反应过程中产生的多硫化锂可以吸附在与碳和草酸钴接触的界面边界区域上。然后,吸附的多硫化锂转化为硫代硫酸盐和多硫代酸盐。可以在J.‐W的《全文》中找到更多信息。Kim等。
更新日期:2021-02-11
中文翻译:
前封面:改进了作为高容量锂硫电池多硫化物催化剂的极性CoC2O4界面上多硫化锂的氧化还原反应(ChemSusChem 3/2021)
前盖显示了面对导电碳的草酸钴如何充当电催化剂,以促进锂硫电池正极界面上多硫化锂的氧化还原反应。在电化学反应过程中产生的多硫化锂可以吸附在与碳和草酸钴接触的界面边界区域上。然后,吸附的多硫化锂转化为硫代硫酸盐和多硫代酸盐。可以在J.‐W的《全文》中找到更多信息。Kim等。
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