Using Mesoporous Nanoarchitectures to Improve Battery Performance

机译：使用介孔纳米结构改善电池性能

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Our studies show that aerogels possess a novel and very desirable microstructure for electrochemical systems. Diffusion lengths are short and the mesoporous morphology enables the electrolyte to penetrate the entire aerogel particle. Among the more significant properties exhibited by these materials are a substantial increase in lithium capacity at high discharge rates and fundamental electrochemical behavior which combines both battery and capacitor characteristics. It is believed that the unique properties of aerogels are influenced significantly by the presence of defects, which reach appreciable concentrations in high-surface-area aerogels and now dominate the electrochemical behavior.

机译：我们的研究表明，气凝胶对电化学系统具有新颖且非常理想的微观结构。扩散长度短，并且介孔形态使电解质能够穿透整个气凝胶颗粒。这些材料表现出的更重要的特性是，在高放电速率下锂容量的显着提高以及结合电池和电容器特性的基本电化学行为。据信，气凝胶的独特性质受到缺陷的存在的显着影响，缺陷在高表面积气凝胶中达到相当的浓度，并且现在主导着电化学行为。

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《ACS Symposium Series 890; Symposium on Nanotechnology and the Environment: Applications and Implications; ;》||P.341-346|共6页
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Bruce Dunn; Francois Bonet; Liam Noailles; Paul Tang;
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Department of Materials Science and Engineering, University of California at Los Angeles, Los Angeles, CA 90095-1595;

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1. Hierarchical 3D mesoporous silicon@graphene nanoarchitectures for lithium ion batteries with superior performance [J] . Shuangqiang Chen, Peite Bao, Xiaodan Huang, 纳米研究：英文版 . 2014,第001期

机译：具有优异性能的用于锂离子电池的分层3D介孔硅@石墨烯纳米结构
2. One-step synthesis of the nickel foam supported network-like ZnO nanoarchitectures assembled with ultrathin mesoporous nanosheets with improved lithium storage performance [J] . Wu Xiaoyu, Li Songmei, Wang Bo, RSC Advances . 2015,第99期

机译：镍泡沫的一步合成支持的网络状ZnO纳米建筑用超薄介孔纳米液组装，具有改进的锂储存性能
3. Carbohydrate-Derived Nanoarchitectures: On a Synergistic Effect Toward an Improved Performance in Lithium-Sulfur Batteries [J] . Nicolas Brun, Ken Sakaushi, Jurgen Eckert ACS Sustainable Chemistry & Engineering . 2014,第2期

机译：碳水化合物衍生的纳米结构：对锂硫电池性能改善的协同作用
4. Using Mesoporous Nanoarchitectures to Improve Battery Performance [C] . Bruce Dunn, Francois Bonet, Liam Noailles, Symposium on Nanotechnology and the Environment: Applications and Implications . 2005

机译：使用中孔纳米建筑以提高电池性能
5. Comprehensively Improved Electrochemical Performance of Lithium-Sulfur Batteries by “Chemical Anchors” and Lithium Anode Modification [D] . Zeng, Zhipeng. 2020

机译：通过“化学锚定”和锂阳极改性全面改善锂 - 硫电池的电化学性能
6. Sandwich-like Ni2P nanoarrayitrogen-doped graphene nanoarchitecture as a high-performance anode for sodium and lithium ion batteries [O] . Caifu Dong, Lijun Guo, Yanyan He, 2018

机译：三明治式Ni2P纳米阵列/氮掺杂石墨烯纳米体系结构作为钠和锂离子电池的高性能阳极
7. Conjugation with carbon nanotubes improves the performance of mesoporous silicon as Li-ion battery anode [O] . Timo Ikonen, Nathiya Kalidas, Katja Lahtinen, 2020

机译：与碳纳米管的缀合提高了中孔硅的性能，如锂离子电池阳极

Using Mesoporous Nanoarchitectures to Improve Battery Performance

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