Improved performance of all-solid-state lithium-ion batteries using nanosilicon active material with multiwalled-carbon-nanotubes as a conductive additive

Trevey J.E.; Rason K.W.; Stoldt C.R.; Lee S.-H.

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Improved performance of all-solid-state lithium-ion batteries using nanosilicon active material with multiwalled-carbon-nanotubes as a conductive additive

机译：使用纳米硅活性材料和多壁碳纳米管作为导电添加剂的全固态锂离子电池的性能改善

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Multiwalled-carbon-nanotubes (MWCNTs) are studied as a conductive additive for all-solid-state lithium-ion batteries using a silicon nanoparticle electrode. Lithium batteries with nanosilicon (n-Si) electrodes and MWCNTs demonstrate nearly a 100% increase in long-term specific capacity over comparable batteries that instead employ acetylene black. For over 100 cycles, reversible capacities over 900 mAh g-1 are measured for these n-Si/MWCNT electrodes. MWCNTs are shown to be a superior conducting additive for Li batteries with a solid-state construction, and Si nanoparticles are shown to demonstrate improved reversible cycling over bulk Si anode material.

机译：研究了多壁碳纳米管（MWCNT）作为使用硅纳米粒子电极的全固态锂离子电池的导电添加剂。与使用乙炔黑的同类电池相比，具有纳米硅（n-Si）电极和MWCNT的锂电池的长期比容量提高了近100％。对于这些n-Si / MWCNT电极，在超过100个循环中，测量到的可逆容量超过900 mAh g-1。 MWCNTs被证明是具有固态结构的Li电池的优异导电添加剂，并且Si纳米颗粒显示出比整体Si阳极材料更好的可逆循环。

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《Electrochemical and solid-state letters》 |2010年第11期|共4页
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Trevey J.E.; Rason K.W.; Stoldt C.R.; Lee S.-H.;
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正文语种 eng
中图分类电化学、电解、磁化学;
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1. Improved performance of all-solid-state lithium-ion batteries using nanosilicon active material with multiwalled-carbon-nanotubes as a conductive additive [J] . Trevey J.E., Rason K.W., Stoldt C.R., Electrochemical and solid-state letters . 2010,第11期

机译：使用纳米硅活性材料和多壁碳纳米管作为导电添加剂的全固态锂离子电池的性能改善
2. Conductive Polymer Binder for High-Tap-Density Nanosilicon Material for Lithium-Ion Battery Negative Electrode Application [J] . Zhao Hui, Wei Yang, Qiao Ruimin, Nano letters . 2015,第12期

机译：锂离子电池负极应用高密度高密度纳米硅材料用导电聚合物粘结剂
3. Theoretical simulation of the optimal relation between active material, binder and conductive additive for lithium-ion battery cathodes [J] . Miranda D., Goren A., Costa C. M., Energy . 2019,第APRa1期

机译：锂离子电池正极活性材料，粘结剂和导电添加剂之间最佳关系的理论模拟
4. Carbonaceous Anode Materials and Conductive Additives as Key To Higher Performance Lithium-ion Batteries [C] . Michael E. Spahr Lithium battery chemistry 2017 . 2017

机译：碳阳极材料和导电添加剂是高性能锂离子电池的关键
5. Preparation and Investigation of Anode Materials with Highly Conductive Materials for High-performance Lithium-ion Batteries [D] . Zhao, Yinchao. 2020

机译：高性能锂离子电池具有高导电材料的阳极材料的制备与研究
6. Conductive Polymer Binder for High-Tap-Density Nanosilicon Material for Lithium-Ion Battery Negative Electrode Application [O] . Hui Zhao, Yang Wei, Ruimin Qiao, -1

机译：锂离子电池负极应用高密度纳米硅材料用导电聚合物粘合剂
7. Multifunctional Additives for High-Energy-Density Lithium-Ion Batteries: Improved Conductive Additive/Binder Networks and Enhanced Electrochemical Properties [O] . -1

机译：用于高能密度锂离子电池的多功能添加剂：改进的导电添加剂/粘合剂网络和增强的电化学性能

Improved performance of all-solid-state lithium-ion batteries using nanosilicon active material with multiwalled-carbon-nanotubes as a conductive additive

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