том 19 издание 28 страницы 25879-25889

Stationary Oxygen Vacancy Construction toward a Superior-Performance Ultrahigh Nickel Single-Crystal Cathode

Тип публикацииJournal Article
Дата публикации2025-07-10
SCImago Q1
Tоп 10% SCImago
WOS Q1
БС1
SJR4.102
CiteScore23.1
Impact factor17.3
ISSN19360851, 1936086X
Краткое описание
Oxygen vacancies exert a complex and profound influence on the layered cathodes, especially those with ultrahigh nickel content. They can facilitate lithium-ion transport and enhance electronic conductivity, while aggressive oxygen vacancy formation causes structural degradation and electrolyte decomposition. Herein, taking ultrahigh nickel single-crystal LiNi0.92Co0.06Mn0.02O2 (SC-Ni92) as a model material, we propose a pinning strategy to harness the benefits of oxygen vacancies while mitigating their detrimental effects. Through a carefully controlled thermal process, both oxygen vacancies and pinning atoms are successfully introduced into the surface region. The resulting anchored oxygen vacancies, capitalizing on their inherent advantages, improve conductivity and lithium-ion diffusion. Simultaneously, the neighboring pinning atoms effectively increase the migration barrier and suppress the adverse effects of these vacancies, including electrolyte decomposition and structural degradation during long-term electrochemical cycling. Consequently, oxygen vacancy-anchored single-crystal LiNi0.92Co0.06Mn0.02O2 (SC-Ni92-OV) demonstrates significantly improved high-voltage electrochemical performance, with 86.16% capacity retention after 200 cycles at 4.6 V and 1 C in a half-cell and 90.71% after 300 cycles at 4.5 V and 1 C in a full cell. This study not only provides valuable insights into the chemistry of oxygen vacancy but also introduces a viable strategy for leveraging oxygen vacancies to achieve stable high-voltage performance in ultrahigh nickel single-crystal cathodes.
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ГОСТ |
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Liang Y. et al. Stationary Oxygen Vacancy Construction toward a Superior-Performance Ultrahigh Nickel Single-Crystal Cathode // ACS Nano. 2025. Vol. 19. No. 28. pp. 25879-25889.
ГОСТ со всеми авторами (до 50) Скопировать
Liang Y., Xue H., Zhan M., Cao H., Xu Z., Liu T., Chen X., Liu J., Li S., Pan F., TAN X. Stationary Oxygen Vacancy Construction toward a Superior-Performance Ultrahigh Nickel Single-Crystal Cathode // ACS Nano. 2025. Vol. 19. No. 28. pp. 25879-25889.
RIS |
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TY - JOUR
DO - 10.1021/acsnano.5c05412
UR - https://pubs.acs.org/doi/10.1021/acsnano.5c05412
TI - Stationary Oxygen Vacancy Construction toward a Superior-Performance Ultrahigh Nickel Single-Crystal Cathode
T2 - ACS Nano
AU - Liang, Yongzhi
AU - Xue, Haoyu
AU - Zhan, Mingxiu
AU - Cao, Hongbin
AU - Xu, Zhongxing
AU - Liu, Tongchao
AU - Chen, Xinghan
AU - Liu, Jiajie
AU - Li, Shunning
AU - Pan, Feng
AU - TAN, XingHua
PY - 2025
DA - 2025/07/10
PB - American Chemical Society (ACS)
SP - 25879-25889
IS - 28
VL - 19
SN - 1936-0851
SN - 1936-086X
ER -
BibTex |
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BibTex (до 50 авторов) Скопировать
@article{2025_Liang,
author = {Yongzhi Liang and Haoyu Xue and Mingxiu Zhan and Hongbin Cao and Zhongxing Xu and Tongchao Liu and Xinghan Chen and Jiajie Liu and Shunning Li and Feng Pan and XingHua TAN},
title = {Stationary Oxygen Vacancy Construction toward a Superior-Performance Ultrahigh Nickel Single-Crystal Cathode},
journal = {ACS Nano},
year = {2025},
volume = {19},
publisher = {American Chemical Society (ACS)},
month = {jul},
url = {https://pubs.acs.org/doi/10.1021/acsnano.5c05412},
number = {28},
pages = {25879--25889},
doi = {10.1021/acsnano.5c05412}
}
MLA
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Liang, Yongzhi, et al. “Stationary Oxygen Vacancy Construction toward a Superior-Performance Ultrahigh Nickel Single-Crystal Cathode.” ACS Nano, vol. 19, no. 28, Jul. 2025, pp. 25879-25889. https://pubs.acs.org/doi/10.1021/acsnano.5c05412.
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