Published in
Royal Society of Chemistry, Journal of Materials Chemistry A: materials for energy and sustainability, 19(12), p. 11473-11486, 2024
DOI: 10.1039/d3ta08101j
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Rapid in situ growth of high-entropy oxide nanoparticles with reversible spinel structures for efficient Li storage
Journal article published in 2024 by
Siyu Zhu,
Wei Nong,
Lim Jun Ji Nicholas 
,
Xun Cao ,
Peilin Zhang,
Yu Lu,
Mingzhen Xiu ,
Kang Huang,
Gang Wu ,
Shuo-Wang Yang ,
Junsheng Wu,
Zheng Liu ,
Madhavi Srinivasan,
Kedar Hippalgaonkar ,
Yizhong Huang
,
Xun Cao ,
Peilin Zhang,
Yu Lu,
Mingzhen Xiu ,
Kang Huang,
Gang Wu ,
Shuo-Wang Yang ,
Junsheng Wu,
Zheng Liu ,
Madhavi Srinivasan,
Kedar Hippalgaonkar ,
Yizhong Huang
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Abstract
Using laser radiation, high-entropy nanoparticles were rapidly fabricated on conductive carbon. The high-entropy nanomaterials with reversible spinel structures exhibit better cycling and rate performances in LIBs.