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2D Carbonaceous Materials for Molecular Transport and Functional Interfaces: Simulations and Insights
Accounts of Chemical Research ( IF 16.4 ) Pub Date : 2024-08-27 , DOI: 10.1021/acs.accounts.4c00398 Yujing Tong 1 , Sheng Dai 2, 3 , De-En Jiang 1
Accounts of Chemical Research ( IF 16.4 ) Pub Date : 2024-08-27 , DOI: 10.1021/acs.accounts.4c00398 Yujing Tong 1 , Sheng Dai 2, 3 , De-En Jiang 1
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Carbon-based two-dimensional (2D) functional materials exhibit potential across a wide spectrum of applications from chemical separations to catalysis and energy storage and conversion. In this Account, we focus on recent advances in the manipulation of 2D carbonaceous materials and their composites through computational design and simulations to address how the precise control over material structure at the atomic level correlates with enhanced functional properties such as gas permeation, selectivity, membrane transport, and charge storage. We highlight several key concepts in the computational design and tuning of 2D structures, such as controlled stacking, ion gating, interlayer pillaring, and heterostructure charge transfer.
中文翻译:
用于分子传输和功能界面的二维碳质材料:模拟和见解
碳基二维(2D)功能材料在从化学分离到催化以及能量存储和转换的广泛应用中表现出潜力。在本报告中,我们重点关注通过计算设计和模拟操纵二维碳质材料及其复合材料的最新进展,以解决在原子水平上对材料结构的精确控制如何与增强的功能特性(例如气体渗透性、选择性、膜性)相关联。运输和电荷存储。我们重点介绍了二维结构的计算设计和调整中的几个关键概念,例如受控堆叠、离子门控、层间柱化和异质结构电荷转移。
更新日期:2024-08-27
中文翻译:
用于分子传输和功能界面的二维碳质材料:模拟和见解
碳基二维(2D)功能材料在从化学分离到催化以及能量存储和转换的广泛应用中表现出潜力。在本报告中,我们重点关注通过计算设计和模拟操纵二维碳质材料及其复合材料的最新进展,以解决在原子水平上对材料结构的精确控制如何与增强的功能特性(例如气体渗透性、选择性、膜性)相关联。运输和电荷存储。我们重点介绍了二维结构的计算设计和调整中的几个关键概念,例如受控堆叠、离子门控、层间柱化和异质结构电荷转移。
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