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Dictating High‐Capacity Lithium–Sulfur Batteries through Redox‐Mediated Lithium Sulfide Growth (Small Methods 6/2020)
Small Methods ( IF 12.4 ) Pub Date : 2020-06-09 , DOI: 10.1002/smtd.202070020 Meng Zhao 1, 2 , Hong‐Jie Peng 3 , Jun‐Yu Wei 1, 2 , Jia‐Qi Huang 1, 2 , Bo‐Quan Li 3 , Hong Yuan 3 , Qiang Zhang 3
Small Methods ( IF 12.4 ) Pub Date : 2020-06-09 , DOI: 10.1002/smtd.202070020 Meng Zhao 1, 2 , Hong‐Jie Peng 3 , Jun‐Yu Wei 1, 2 , Jia‐Qi Huang 1, 2 , Bo‐Quan Li 3 , Hong Yuan 3 , Qiang Zhang 3
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Regulating the redox reactions is critical for rechargeable batteries based on conversion chemistries. In article number 1900344, Jia‐Qi Huang and co‐workers introduce cobaltocene as a persistent extrinsic redox mediator to dictate an alternative redox pathway, which not only benefits high‐rate or electrolyte‐lean lithium–sulfur batteries but also paves a way toward the rational design of novel redox mediators in dissolution‐precipitation energy chemistries.
中文翻译:
通过氧化还原介导的硫化锂生长来定向大容量锂硫电池(小方法6/2020)
对于基于转化化学的可充电电池,调节氧化还原反应至关重要。在第1900344号文章中,黄嘉琪及其同事介绍了钴茂作为持久的外在氧化还原介体,以指示替代的氧化还原途径,这不仅有益于高速率或贫电解质的锂硫电池,而且还为实现这一目标铺平了道路。溶解-沉淀能化学中新型氧化还原介体的合理设计。
更新日期:2020-06-09
中文翻译:
通过氧化还原介导的硫化锂生长来定向大容量锂硫电池(小方法6/2020)
对于基于转化化学的可充电电池,调节氧化还原反应至关重要。在第1900344号文章中,黄嘉琪及其同事介绍了钴茂作为持久的外在氧化还原介体,以指示替代的氧化还原途径,这不仅有益于高速率或贫电解质的锂硫电池,而且还为实现这一目标铺平了道路。溶解-沉淀能化学中新型氧化还原介体的合理设计。
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