American Chemical Society (ACS)
Nano Letters
volume 17 issue 3 pages 1602-1609

Formation of Reversible Solid Electrolyte Interface on Graphite Surface from Concentrated Electrolytes

Dongping Lu 1
Jinhui Tao 1
Pengfei Yan 2
Wesley Henderson 1
Qiuyan Li 1
Yuyan Shao 1
Monte L. Helm 1
Oleg Borodin 3
Gordon L. Graff 1
Bryant Polzin 4
ChunSheng Wang 2
Mark Engelhard 2
Ji-Guang Zhang 1
Jim De Yoreo 1
Jun Liu 1
Jie Xiao 1
1
 
2
 
Environmental Molecular Sciences Laboratory, ,,
3
 
Electrochemistry Branch, Sensor & Electron Devices Directorate, United States Army Research Laboratory (ARL), Adelphi, Maryland 20783, United States
4
 
Publication typeJournal Article
Publication date2017-02-15
American Chemical Society (ACS)
scimago Q1
wos Q1
SJR2.967
CiteScore14.9
Impact factor9.1
ISSN15306984, 15306992
General Chemistry
Condensed Matter Physics
General Materials Science
Mechanical Engineering
Bioengineering
Abstract
Li-ion batteries (LIB) have been successfully commercialized after the identification of ethylene-carbonate (EC)-containing electrolyte that can form a stable solid electrolyte interphase (SEI) on carbon anode surface to passivate further side reactions but still enable the transportation of the Li+ cation. These electrolytes are still utilized, with only minor changes, after three decades. However, the long-term cycling of LIB leads to continuous consumption of electrolyte and growth of SEI layer on the electrode surface, which limits the battery's life and performance. Herein, a new anode protection mechanism is reported in which, upon changing of the cell potential, the electrolyte components at the electrode-electrolyte interface reorganize reversibly to form a transient protective surface layers on the anode. This layer will disappear after the applied potential is removed so that no permanent SEI layer is required to protect the carbon anode. This phenomenon minimizes the need for a permanent SEI layer and prevents its continuous growth and therefore may lead to largely improved performance for LIBs.
Found 
Found 

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GOST |
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GOST Copy
Lu D. et al. Formation of Reversible Solid Electrolyte Interface on Graphite Surface from Concentrated Electrolytes // Nano Letters. 2017. Vol. 17. No. 3. pp. 1602-1609.
GOST all authors (up to 50) Copy
Lu D., Tao J., Yan P., Henderson W., Li Q., Shao Y., Helm M. L., Borodin O., Graff G. L., Polzin B., Wang C., Engelhard M., Zhang J., De Yoreo J., Liu J., Xiao J. Formation of Reversible Solid Electrolyte Interface on Graphite Surface from Concentrated Electrolytes // Nano Letters. 2017. Vol. 17. No. 3. pp. 1602-1609.
RIS |
Cite this
RIS Copy
TY - JOUR
DO - 10.1021/acs.nanolett.6b04766
UR - https://doi.org/10.1021/acs.nanolett.6b04766
TI - Formation of Reversible Solid Electrolyte Interface on Graphite Surface from Concentrated Electrolytes
T2 - Nano Letters
AU - Lu, Dongping
AU - Tao, Jinhui
AU - Yan, Pengfei
AU - Henderson, Wesley
AU - Li, Qiuyan
AU - Shao, Yuyan
AU - Helm, Monte L.
AU - Borodin, Oleg
AU - Graff, Gordon L.
AU - Polzin, Bryant
AU - Wang, ChunSheng
AU - Engelhard, Mark
AU - Zhang, Ji-Guang
AU - De Yoreo, Jim
AU - Liu, Jun
AU - Xiao, Jie
PY - 2017
DA - 2017/02/15
PB - American Chemical Society (ACS)
SP - 1602-1609
IS - 3
VL - 17
PMID - 28165750
SN - 1530-6984
SN - 1530-6992
ER -
BibTex |
Cite this
BibTex (up to 50 authors) Copy
@article{2017_Lu,
author = {Dongping Lu and Jinhui Tao and Pengfei Yan and Wesley Henderson and Qiuyan Li and Yuyan Shao and Monte L. Helm and Oleg Borodin and Gordon L. Graff and Bryant Polzin and ChunSheng Wang and Mark Engelhard and Ji-Guang Zhang and Jim De Yoreo and Jun Liu and Jie Xiao},
title = {Formation of Reversible Solid Electrolyte Interface on Graphite Surface from Concentrated Electrolytes},
journal = {Nano Letters},
year = {2017},
volume = {17},
publisher = {American Chemical Society (ACS)},
month = {feb},
url = {https://doi.org/10.1021/acs.nanolett.6b04766},
number = {3},
pages = {1602--1609},
doi = {10.1021/acs.nanolett.6b04766}
}
MLA
Cite this
MLA Copy
Lu, Dongping, et al. “Formation of Reversible Solid Electrolyte Interface on Graphite Surface from Concentrated Electrolytes.” Nano Letters, vol. 17, no. 3, Feb. 2017, pp. 1602-1609. https://doi.org/10.1021/acs.nanolett.6b04766.