Conductive Additives for Improving the Rate Capability of Cathode Materials in Secondary Lithium Batteries
Xingxing Jiao
1
,
Alina V. Kirianova
2
,
Xieyu Xu
2
,
Victor A. Krivchenko
3
,
Valentyn S. Volkov
4
,
M. O. Gallyamov
5, 6
,
Yangyang Liu
1
4
Emerging Technologies Research Center, XPANCEO, Dubai Investment Park 1, 607-0406 Dubai, United Arab Emirates
|
Publication type: Journal Article
Publication date: 2023-02-27
scimago Q1
wos Q2
SJR: 1.378
CiteScore: 10.2
Impact factor: 5.5
ISSN: 25740962
Materials Chemistry
Electrochemistry
Electrical and Electronic Engineering
Energy Engineering and Power Technology
Chemical Engineering (miscellaneous)
Abstract
Conductive additive, one of the most important components of a battery, is an indispensable key material in the high-current charging and discharging processes of lithium-ion batteries. The most fundamental reason for adding appropriate conductive additives in the electrode is to improve the poor conductive performance of the electrode-active material, reduce the internal resistance and polarization of the electrode, and improve the comprehensive performance of the battery. Herein, a graphene-like material with a unique two-dimensional morphology was proposed, as obtained by an efficient one-step electrochemical synthesis, which can provide a flexible plane-to-point conducting network to improve the electronic conductivity of cathode materials. Compared with the commercial conductive additive Super P, the NCM811 cathode material with ECGO can deliver a capacity of 147.3 mAh g–1 at a high rate of 2 C, and sulfur cathode retains 620 mAh g–1 after 200 cycles, corresponding to the capacity retention of 74%. Also, due to the presence of oxygen groups, ECGO is proposed as an effective conductive additive in Li-ion cathodes prepared by water-based processing. Therefore, the cathode materials with the ECGO conductive additive can contribute to reduce the interfacial resistance and increase the capability, showing great advantages compared to the commercial conductive additives.
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Metrics
22
Total citations:
22
Citations from 2024:
21
(95%)
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MLA
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GOST
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Jiao X. et al. Conductive Additives for Improving the Rate Capability of Cathode Materials in Secondary Lithium Batteries // ACS Applied Energy Materials. 2023. Vol. 6. No. 5. pp. 2855-2862.
GOST all authors (up to 50)
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Jiao X., Kirianova A. V., Xu X., Kapitanova O. O., Krivchenko V. A., Krivchenko V., Napolskiy F. S., Volkov V. S., Gallyamov M. O., Liu Y. Conductive Additives for Improving the Rate Capability of Cathode Materials in Secondary Lithium Batteries // ACS Applied Energy Materials. 2023. Vol. 6. No. 5. pp. 2855-2862.
Cite this
RIS
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TY - JOUR
DO - 10.1021/acsaem.2c03772
UR - https://pubs.acs.org/doi/10.1021/acsaem.2c03772
TI - Conductive Additives for Improving the Rate Capability of Cathode Materials in Secondary Lithium Batteries
T2 - ACS Applied Energy Materials
AU - Jiao, Xingxing
AU - Kirianova, Alina V.
AU - Xu, Xieyu
AU - Kapitanova, Olesya O.
AU - Krivchenko, Victor A.
AU - Krivchenko, Victor
AU - Napolskiy, Filipp S.
AU - Volkov, Valentyn S.
AU - Gallyamov, M. O.
AU - Liu, Yangyang
PY - 2023
DA - 2023/02/27
PB - American Chemical Society (ACS)
SP - 2855-2862
IS - 5
VL - 6
SN - 2574-0962
ER -
Cite this
BibTex (up to 50 authors)
Copy
@article{2023_Jiao,
author = {Xingxing Jiao and Alina V. Kirianova and Xieyu Xu and Olesya O. Kapitanova and Victor A. Krivchenko and Victor Krivchenko and Filipp S. Napolskiy and Valentyn S. Volkov and M. O. Gallyamov and Yangyang Liu},
title = {Conductive Additives for Improving the Rate Capability of Cathode Materials in Secondary Lithium Batteries},
journal = {ACS Applied Energy Materials},
year = {2023},
volume = {6},
publisher = {American Chemical Society (ACS)},
month = {feb},
url = {https://pubs.acs.org/doi/10.1021/acsaem.2c03772},
number = {5},
pages = {2855--2862},
doi = {10.1021/acsaem.2c03772}
}
Cite this
MLA
Copy
Jiao, Xingxing, et al. “Conductive Additives for Improving the Rate Capability of Cathode Materials in Secondary Lithium Batteries.” ACS Applied Energy Materials, vol. 6, no. 5, Feb. 2023, pp. 2855-2862. https://pubs.acs.org/doi/10.1021/acsaem.2c03772.