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Carbon inverse opal entrapped with electrode active nanoparticles as high-performance anode for lithium-ion batteries

机译：电极活性纳米粒子截留的碳反蛋白石作为锂离子电池的高性能阳极

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Enhancing ion and electron transport kinetics together with improving cycle life are important issues to be considered when developing high-performance Li ion batteries. Here we demonstrate a three dimensional ordered macroporous conductive electrode concept by entrapping electrode active nanoparticles in an interpenetrating macroporous carbon inverse opal. The electrodes are featured with simultaneously enhanced ion and electron transport kinetics as well as geometrically constrained active nanoparticles. The electrode can deliver up to 94.17% of theoretical capacity over 1000 discharge/charge cycles at a current density of 2.0 A g⁻¹, and exhibits good rate capability in the high current density range of 1.0–10.0 A g⁻¹. We hope that our findings will help pave the way for tailored design of many other sophisticated electrode materials in electrochemistry.

机译：在开发高性能锂离子电池时，提高离子和电子传输动力学以及延长循环寿命是要考虑的重要问题。在这里，我们通过将电极活性纳米粒子截留在互穿的大孔碳反蛋白石中，展示了三维有序大孔导电电极概念。电极具有同时增强的离子和电子传输动力学以及受几何约束的活性纳米粒子的特点。在电流密度为2.0 A g ^{-1 的情况下，该电极在1000放电/充电循环中可提供高达理论容量的94.17％，并在1.0–10.0的高电流密度范围内显示出良好的速率能力g ^{-1 。我们希望我们的发现将有助于为电化学中许多其他复杂电极材料的定制设计铺平道路。}}

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期刊名称 Scientific Reports
作者
Xin Huang; Jing Chen; Ziyang Lu; Hong Yu; Qingyu Yan; Huey Hoon Hng;
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年(卷),期 -1(3),-1
年度 -1
页码 2317
总页数 9
原文格式 PDF
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入库时间 2022-08-21 10:57:21

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专利

1. Carbon inverse opal entrapped with electrode active nanoparticles as high-performance anode for lithium-ion batteries [J] . Xin Huang, Jing Chen, Ziyang Lu, Scientific reports. . 2013,第1期

机译：碳逆蛋白石用电极活性纳米颗粒作为锂离子电池的高性能阳极捕获
2. Si nanoparticles-nested inverse opal carbon supports for highly stable lithium-ion battery anodes [J] . Gueon Donghee, Kang Da-Young, Kim Jung Sub, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2015,第47期

机译：硅纳米粒子嵌套反蛋白石碳载体，用于高度稳定的锂离子电池阳极
3. High-performance characteristics of silicon inverse opal synthesized by the simple magnesium reduction as anodes for lithium-ion batteries [J] . Jeong Jae-Hun, Kim Kwang-Hyun, Jung Dong-Won, Journal of power sources . 2015,第DECa30期

机译：简单还原镁作为锂离子电池阳极可合成反硅蛋白石的高性能
4. Si and Si@C Nanoparticles for Lithium-Ion Batteries Anodes: Electrode/Electrolyte Interface Evolution [C] . Antoine Desues, John P Alper, Florent Boismain, Meeting of the Electrochemical Society;International Meeting on Chemical Sensors . 2020

机译：用于锂离子电池的Si和Si @ C纳米粒子阳极：电极/电解质界面演化
5. Silicon inverse opal-based materials as electrodes for lithium-ion batteries: Synthesis, characterisation and electrochemical performance. [D] . Esmanski, Alexei. 2008

机译：硅反蛋白石基材料作为锂离子电池的电极：合成，表征和电化学性能。
6. Tin Nanoparticles Encapsulated Carbon Nanoboxes as High-Performance Anode for Lithium-Ion Batteries [O] . Ziming Yang, Hong-Hui Wu, Zhiming Zheng, 2018

机译：锡纳米颗粒封装的碳纳米盒作为锂离子电池的高性能阳极
7. Facile Synthesis of ZnO Nanoparticles on Nitrogen-Doped Carbon Nanotubes as High-Performance Anode Material for Lithium-Ion Batteries [O] . Haipeng Li, Zhengjun Liu, Shuang Yang, 2017

机译：氮负载碳纳米管上ZnO纳米粒子的简易合成作为锂离子电池的高性能阳极材料
8. High-Performance Lithium-Ion Battery Anode Based on the Core-Shell Heterostructure of Silicon-Coated Vertically Aligned Carbon Nanofibers. [R] . Klankowski, S. A., Rojeski, R. A., Cruden, B. A., 2013

机译：基于硅涂层垂直排列碳纳米纤维核壳异质结构的高性能锂离子电池正极。

Carbon inverse opal entrapped with electrode active nanoparticles as high-performance anode for lithium-ion batteries

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