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Construction of Electrocatalytic and Heat-Resistant Self-Supporting Electrodes for High-Performance Lithium–Sulfur Batteries
Nano-Micro Letters ( IF 31.6 ) Pub Date : 2019-09-18 , DOI: 10.1007/s40820-019-0313-x Xuemei Zhang 1 , Yunhong Wei 1 , Boya Wang 2 , Mei Wang 2 , Yun Zhang 2 , Qian Wang 2 , Hao Wu 1
中文翻译:
高性能锂硫电池电催化和耐热自支撑电极的构建
更新日期:2019-09-18
Nano-Micro Letters ( IF 31.6 ) Pub Date : 2019-09-18 , DOI: 10.1007/s40820-019-0313-x Xuemei Zhang 1 , Yunhong Wei 1 , Boya Wang 2 , Mei Wang 2 , Yun Zhang 2 , Qian Wang 2 , Hao Wu 1
Affiliation
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Flexible hierarchical electrode architecture was constructed by rooting MOF-derived CoS2/carbon nanoleaf arrays into a nitrogen-rich 3D conductive scaffold.
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An accelerated electrocatalytic effect and improved polysulfide redox kinetics arising from the structure advantages were investigated.
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As-prepared composite delivers a significantly improved electrochemical performance not only at room temperature but also at elevated temperature.
中文翻译:
高性能锂硫电池电催化和耐热自支撑电极的构建
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通过将源自MOF的CoS 2 /碳纳米叶阵列植根到富氮3D导电支架中,构建了灵活的分层电极体系结构。
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研究了由结构优势引起的加速电催化作用和改善的多硫化物氧化还原动力学。
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所制备的复合材料不仅在室温下而且在高温下均提供了显着改善的电化学性能。