Self-healing SEI enables full-cell cycling of a silicon-majority anode with a coulombic efficiency exceeding 99.9%

Jin, Yang; Li, Sa; Kushima, Akihiro; Zheng, Xiaoquan; Sun, Yongming; Xie, Jin; Sun, Jie; Xue, Weijiang; Zhou, Guangmin; Wu, Jiang; Shi, Feifei; Zhang, Rufan; Zhu, Zhi; So, Kangpyo; Cui, Yi; Li, Ju

doi:10.1039/c6ee02685k

articleEnergy & Environmental ScienceJan 1, 2017GREEN OA

Self-healing SEI enables full-cell cycling of a silicon-majority anode with a coulombic efficiency exceeding 99.9%

YJYang Jin SLSa Li AKAkihiro Kushima XZXiaoquan Zheng YSYongming Sun

Institute of Electrical Engineering · China XD Group (China) · +7 more institutions

Indexed incrossref

Abstract

Full-cell cycling of a high density silicon-majority anode with 2× volumetric capacity of graphite and a stabilized coulombic efficiency exceeding 99.9%.

Citation impact

522

total citations

FWCI: 37.41
Percentile: 100%
References: 45

Citations per year

Authors

YJ
Yang Jin
Institute of Electrical Engineering, China XD Group (China), State Key Laboratory of Electrical Insulation and Power Equipment, Massachusetts Institute of Technology, Xi'an Jiaotong University, Stanford University
SL
Sa Li
Tongji University
AK
Akihiro Kushima
Massachusetts Institute of Technology
XZ
Xiaoquan Zheng
Institute of Electrical Engineering, China XD Group (China), State Key Laboratory of Electrical Insulation and Power Equipment, Xi'an Jiaotong University
YS
Yongming Sun
Stanford Medicine, Stanford University

Topics & keywords

Topics

Advancements in Battery Materials100%
Advanced Battery Materials and Technologies100%
Advanced Battery Technologies Research100%

Keywords

Faraday efficiency
Anode
Cycling
Silicon
Materials science
Rapid cycling
Self-healing
Nanotechnology

UN Sustainable Development Goals

Affordable and clean energy

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