Jun Li
Tsinghua University
27 Papers
46 Citations
Jun Li is an academic researcher from Tsinghua University. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 13, co-authored 24 publications. Previous affiliations of Jun Li include Southern University of Science and Technology.
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Papers
Iridium single-atom catalyst on nitrogen-doped carbon for formic acid oxidation synthesized using a general host-guest strategy.
Zhi Li,Yuanjun Chen,Shufang Ji,Yan Tang,Wenxing Chen,Ang Li,Jie Zhao,Yu Xiong,Yuen Wu,Yue Gong,Tao Yao,Wei Liu,Lirong Zheng,Juncai Dong,Yu Wang,Zhongbin Zhuang,Wei Xing,Chun-Ting He,Chao Peng,Chao Peng,Weng-Chon Cheong,Q.H. Li,Maolin Zhang,Zheng Chen,Ninghua Fu,Xin Gao,Wei Zhu,Jiawei Wan,Jian Zhang,Lin Gu,Shiqiang Wei,Peijun Hu,Peijun Hu,Jun Luo,Jun Li,Chen Chen,Qing Peng,Xiangfeng Duan,Yu Huang,Xiao-Ming Chen,Dingsheng Wang,Yadong Li,Yadong Li +42 more
TL;DR: A general host–guest strategy to make various single-atom catalysts on nitrogen-doped carbon has been developed; the iridium variant electrocatalyses the formic acid oxidation reaction with high mass activity and displays high tolerance to CO poisoning.
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Tuning defects in oxides at room temperature by lithium reduction.
Gang Ou,Yushuai Xu,Bo Wen,Rui Lin,Binghui Ge,Yan Tang,Yuwei Liang,Cheng Yang,Kai Huang,Di Zu,Rong Yu,Wenxing Chen,Jun Li,Hui Wu,Li-Min Liu,Yadong Li +15 more
TL;DR: A versatile lithium reduction strategy to engineer the defects of oxides at room temperature leading to enhanced photocatalytic properties is developed and may be beneficial for many other related applications.
High-Performance Rh2P Electrocatalyst for Efficient Water Splitting
Haohong Duan,Dongguo Li,Yan Tang,Yang He,Shufang Ji,Rongyue Wang,Haifeng Lv,Pietro P. Lopes,Arvydas P. Paulikas,Haoyi Li,Scott X. Mao,Chongmin Wang,Nenad M. Markovic,Jun Li,Vojislav R. Stamenkovic,Yadong Li +15 more
TL;DR: Combined experimental and computational studies suggest that surface phosphorus plays a crucial role in determining the robust catalyst properties of rhodium phosphide electrocatalyst with low metal loading in the form of nanocubes dispersed in high-surface-area carbon (Rh2P/C).
Maximizing the Number of Interfacial Sites in Single-Atom Catalysts for the Highly Selective, Solvent-Free Oxidation of Primary Alcohols.
Tianbo Li,Tianbo Li,Fei Liu,Yan Tang,Lin Li,Shu Miao,Yang Su,Junying Zhang,Jiahui Huang,Hui Sun,Masatake Haruta,Masatake Haruta,Aiqin Wang,Botao Qiao,Jun Li,Tao Zhang +15 more
TL;DR: It is demonstrated for the first time that the number of interfacial sites is maximized in SACs, providing a new avenue for improving catalytic performance by developing appropriate SACS for alcohol oxidation and other reactions occurring at metal-support interfacial Sites.
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