L
Lei Chen
Researcher at Central South University
Publications - 7
Citations - 281
Lei Chen is an academic researcher from Central South University. The author has contributed to research in topics: Overpotential & Water splitting. The author has an hindex of 4, co-authored 5 publications receiving 105 citations.
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NiCoP nanoleaves array for electrocatalytic alkaline H2 evolution and overall water splitting
TL;DR: In this paper, a self-supported NiCoP nanoleaves array vertically grown on Ni foam was used for H2 evolution and overall water splitting via simple hydrothermal treatment and phosphorization.
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Trimetallic oxyhydroxides as active sites for large-current-density alkaline oxygen evolution and overall water splitting
TL;DR: In this paper, a series of transition metal chalcogenides for alkaline OER was reported, and they showed that Ni(Fe,Co) trimetallic oxyhydroxides were the active sites for highly efficient OER.
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Potential active sites of Mo single atoms for electrocatalytic reduction of N2
Lei Chen,Chaozheng He,Ran Wang,Qian Li,Qian Li,Jian Zeng,Wei Liu,Yuchao Wang,Yuchao Wang,Qichen Wang,Tong Ye,Yougen Tang,Yongpeng Lei +12 more
TL;DR: In this paper, single atom catalysts (SACs) with isolated metal atoms dispersed on supports exhibit distinctive performances for electrocatalysis reactions, and the designable realization of well-dispersed single metal atoms is still a great challenge owing to their ease of aggregation.
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Phosphating-induced charge transfer on CoO/CoP interface for alkaline H2 evolution
Qian Li,Qian Li,Yuchao Wang,Yuchao Wang,Jian Zeng,Jian Zeng,Qiu-Mei Wu,Qichen Wang,Lian Sun,Liang Xu,Tong Ye,Xin Zhao,Lei Chen,Zhiyan Chen,Limiao Chen,Yongpeng Lei +15 more
TL;DR: In this paper, a CoO/CoP heterostructure catalyst (termed POZ) was designed by a phosphating strategy, which exhibited a remarkable solar-to-hydrogen conversion efficiency of 105% and showed a low overpotential of 236mV at 400mV, which was 249mV lower than non-phosphated sample.
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Decoding the temporal and regional specification of microglia in the developing human brain.
Yanxin Li,Zhongqiu Li,Min Yang,Feiyang Wang,Yue Zhang,R. Li,Qian Li,Yunxia Gong,Binhong Wang,Baoguang Fan,Chunyue Wang,Lei Chen,Hong Li,Jennie Ong,Zhao Teng,Lei Jin,Yan-Ling Wang,Peng Du,Jianwei Jiao +18 more
TL;DR: In this paper , the authors profile single-cell transcriptomes of microglia from distinct regions of the developing human brain, and combined with experimental verification, define and characterize early microglial fate determinations related to regional specification and state transition.