Electrochemical Energy Storage: Ordered Network of Interconnected SnO2 Nanoparticles for Excellent Lithium-Ion Storage (Adv. Energy Mater. 5/2015)

Vinodkumar Etacheri; Gulaim A. Seisenbaeva; James Caruthers; Geoffrey Daniel; Jean-Marie Nedelec; Vadim G. Kessler; Vilas G. Pol

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Electrochemical Energy Storage: Ordered Network of Interconnected SnO2 Nanoparticles for Excellent Lithium-Ion Storage (Adv. Energy Mater. 5/2015)

机译：电化学储能：互连的SnO2纳米颗粒的有序网络，可实现出色的锂离子存储（Adv。Energy Mater。5/2015）

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来源
《Advanced energy materials》 |2015年第5期|1-1|共1页
作者
Vinodkumar Etacheri; Gulaim A. Seisenbaeva; James Caruthers; Geoffrey Daniel; Jean-Marie Nedelec; Vadim G. Kessler; Vilas G. Pol;
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作者单位

School of Chemical Engineering Purdue University West Lafayette Indiana USA;

Department of Chemistry and Biotechnology Swedish University of Agricultural Sciences Uppsala Sweden;

School of Chemical Engineering Purdue University West Lafayette Indiana USA;

Department of Forest Products/Wood Science Swedish University of Agricultural Sciences Uppsala Sweden;

ENSCCF Institute de Chimie de Clermont-Ferrand Clermont UniversitÉ Clermont-Ferrand France;

CNRS UMR 6296 ICCF Aubiere France;

Department of Chemistry and Biotechnology Swedish University of Agricultural Sciences Uppsala Sweden;

School of Chemical Engineering Purdue University West Lafayette Indiana USA;

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原文格式 PDF
正文语种 eng
中图分类
关键词
cassiterite; electrochemical energy storage; interfacial kinetics; lithium-ion batteries; mesoporosity;

机译：锡石;电化学储能;界面动力学;锂离子电池;介孔率;

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1. In Situ Generation of Few-Layer Graphene Coatings on SnO2-SiC Core-Shell Nanoparticles for High-Performance Lithium-Ion Storage (Adv. Energy Mater. 1/2012) [J] . Zhongxue Chen, Min Zhou, Yuliang Cao, Advanced energy materials . 2012,第1期

机译：SnO2-SiC核壳纳米颗粒上原位生成高性能石墨离子涂层的很少层石墨烯涂层（Adv。Energy Mater.1 / 2012）
2. Lithium-Ion Batteries: Disordered Lithium-Rich Oxyfluoride as a Stable Host for Enhanced Li+ Intercalation Storage (Adv. Energy Mater. 9/2015) [J] . Ruiyong Chen, Shuhua Ren, Michael Knapp, Advanced energy materials . 2015,第9期

机译：锂离子电池：无序的富氟化锂作为稳定的主体，可增强Li +嵌入存储（Adv。Energy Mater。9/2015）
3. Ordered Network of Interconnected SnO2 Nanoparticles for Excellent Lithium-Ion Storage [J] . Vinodkumar Etacheri, Gulaim A. Seisenbaeva, James Caruthers, Advanced energy materials . 2015,第5期

机译：互连的SnO2纳米粒子的有序网络可实现出色的锂离子存储
4. Graphitic Carbon Nitride: An Excellent Base for Composite Electrodes in Electrochemical Energy Conversion and Storage [C] . Oluwafunmilola Ola, Yanqiu Zhu Meeting of the Electrochemical Society;International Meeting on Chemical Sensors . 2020

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5. Nanoparticles in mesoporous materials: Optical and electrochemical properties for energy storage applications. [D] . Patel, Mehul Naginbhai. 2009

机译：中孔材料中的纳米颗粒：能量存储应用的光学和电化学性质。
6. Electrochemically active crystalline mesoporous covalent organic frameworks on carbon nanotubes for synergistic lithium-ion battery energy storage [O] . Fei Xu, Shangbin Jin, Hui Zhong, -1

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7. Electrochemical Energy Storage: Porosity Engineering of MOF‐Based Materials for Electrochemical Energy Storage (Adv. Energy Mater. 20/2021) [O] . Ran Du, Yifan Wu, Yuchen Yang, 2021

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8. Technical and Economic Assessments of Electrochemical Energy Storage Systems, Volume 3: Economic Assessment of Battery Energy Storage in Electric Utility Systems: Final Report, September 1978-May 1985 [R] . Sobieski, D. W., Bhavaraju, M. P. 1985

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Electrochemical Energy Storage: Ordered Network of Interconnected SnO2 Nanoparticles for Excellent Lithium-Ion Storage (Adv. Energy Mater. 5/2015)

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