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The overarching goal of our research is to answer fundamental questions related to fluid‑solid interfaces when the interface exhibits nanoscale textures and tailored surface chemistry, interacting with electrolyte ions and solvent molecules with distinct molecular sizes and shapes. Achieving superior performance with the next generation of electrical storage devices will require a fundamental knowledge of the nanoscale architecture of the interface, the effect of nanotexture on interfacial properties, and the structural and dynamic changes that occur during charge and discharge cycles. We need an atomistic understanding of the individual processes associated with ion and solvent transport at nanotextured interfaces. The controlled synthesis and characterization of model nanoporous materials and novel electrolytes will be accomplished in this research program.
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论文共 58 篇作者统计合作学者相似作者
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Materials horizonsno. 9 (2023): 3360-3368
引用1浏览0WOS引用
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RSC advancesno. 29 (2023): 19856-19861
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SMALLno. 7 (2023): e2305658-e2305658
Mengyuan Zhang,Xiaolan Duan, Ying Gao, Shuangshuang Zhang, Xiaoyan Lu, Kongliang Luo, Jian Ye,Xiaopeng Wang,Qiang Niu,Pengfei Zhang,Sheng Dai
Applied Catalysis B: Environmental (2023): 122982
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4
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2023 IEEE 19th International Conference on e-Science (e-Science) (2023): 1-2
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ECS Meeting Abstractsno. 1 (2022): 29-29
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ECS Meeting Abstractsno. 55 (2022): 2111-2111
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ECS Meeting Abstractsno. 12 (2022): 757-757
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