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Theoretical and Experimental Sets of Choice Anode/Cathode Architectonics for High-Performance Full-Scale LIB Built-up Models
Nano-Micro Letters ( IF 31.6 ) Pub Date : 2019-10-10 , DOI: 10.1007/s40820-019-0315-8 H Khalifa 1, 2 , S A El-Safty 1 , A Reda 1 , M A Shenashen 1 , M M Selim 3 , A Elmarakbi 4 , H A Metawa 2
中文翻译:
用于高性能全尺寸 LIB 构建模型的精选阳极/阴极架构的理论和实验集
更新日期:2019-10-10
Nano-Micro Letters ( IF 31.6 ) Pub Date : 2019-10-10 , DOI: 10.1007/s40820-019-0315-8 H Khalifa 1, 2 , S A El-Safty 1 , A Reda 1 , M A Shenashen 1 , M M Selim 3 , A Elmarakbi 4 , H A Metawa 2
Affiliation
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Modulation of 3D super-scalable hierarchal anode/cathode models as choice architectonics into a full-scale LIB design.
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The scalable architectures dynamically provide effective diffusion gateways to guarantee excellent specific LIB performance.
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The DFT theoretical surface–surface electronic and charge map analyses confirmed the superiority of choice anode/cathode architectonics in full-scale LIB built-up models.
中文翻译:
用于高性能全尺寸 LIB 构建模型的精选阳极/阴极架构的理论和实验集
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将 3D 超可扩展分层阳极/阴极模型作为选择架构调制到全尺寸 LIB 设计中。
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可扩展的架构动态地提供有效的扩散网关,以保证优异的特定LIB性能。
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DFT 理论表面-表面电子和电荷图分析证实了在全尺寸 LIB 构建模型中选择阳极/阴极结构的优越性。