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Anchoring highly surface-exposed Pt single atoms on Ni3S2/Co9S8 with abundant S vacancies triggers d-orbital electron rearrangements for boosted seawater hydrogen evolution Journal article
Li, Shanpeng, Zhuo, Yuling, Liu, Dong, Pan, Hui, Wang, Zhenbo. Anchoring highly surface-exposed Pt single atoms on Ni3S2/Co9S8 with abundant S vacancies triggers d-orbital electron rearrangements for boosted seawater hydrogen evolution[J]. Applied Catalysis B-Environment and Energy, 2024, 355, 124188.
Authors:  Li, Shanpeng;  Zhuo, Yuling;  Liu, Dong;  Pan, Hui;  Wang, Zhenbo
Favorite | TC[Scopus]:2  IF:20.2/18.9 | Submit date:2024/06/05
Pt Single Atom Catalyst  Pt–s Electron Bridges  s Vacancies  Seawater Hydrogen Production  Self-supported Electrode  
Cascade Synthesis of Fe-N2-Fe Dual-Atom Catalysts for Superior Oxygen Catalysis Journal article
Zhao, Shuang, Liu, Minjie, Qu, Zehua, Yan, Yan, Zhang, Zhirong, Yang, Jifeng, He, Siyuan, Xu, Zhou, Zhu, Yiquan, Luo, Laihao, Hui, Kwun Nam, Liu, Mingkai, Zeng, Jie. Cascade Synthesis of Fe-N2-Fe Dual-Atom Catalysts for Superior Oxygen Catalysis[J]. Angewandte Chemie-International Edition, 2024, 63(40), e202408914.
Authors:  Zhao, Shuang;  Liu, Minjie;  Qu, Zehua;  Yan, Yan;  Zhang, Zhirong; et al.
Favorite | TC[WOS]:5 TC[Scopus]:5  IF:16.1/16.2 | Submit date:2024/10/10
Dual-atom Catalyst  Oxygen Reduction Reaction  Single-atom Catalyst  Synthetic Strategy  Zinc-air Battery  
Cu–N–C single-atom nanozyme as an ultrasensitive sensing platform for α-glucosidase detection Journal article
Jiang, Yiting, Chen, Zhejie, Yuan, Yating, Tian, Linxin, Dong, Chuhuang, Shen, Wencheng, Wei, Jinchao, Wang, Shengpeng, Yang, Yu, Ge, Jia. Cu–N–C single-atom nanozyme as an ultrasensitive sensing platform for α-glucosidase detection[J]. Materials Today Chemistry, 2024, 41, 102327.
Authors:  Jiang, Yiting;  Chen, Zhejie;  Yuan, Yating;  Tian, Linxin;  Dong, Chuhuang; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:6.7/7.1 | Submit date:2024/10/10
Biosensing  Colorimetric Detection  Single-atom Nanozyme  Α-glucosidase  
Molecular engineering of polymeric carbon nitride for photocatalytic hydrogen production with ultrahigh apparent quantum efficiency Journal article
Liu, Haiyang, Liu, Xiaolu, Xu, Chengqun, Wang, Dongyu, Li, Dezhi, Huang, Jingyao, Wu, Shengquan, Wang, Zhichun, Pan, Hui. Molecular engineering of polymeric carbon nitride for photocatalytic hydrogen production with ultrahigh apparent quantum efficiency[J]. Journal of Materials Chemistry A, 2024, 12(15), 9200-9211.
Authors:  Liu, Haiyang;  Liu, Xiaolu;  Xu, Chengqun;  Wang, Dongyu;  Li, Dezhi; et al.
Favorite | TC[WOS]:3 TC[Scopus]:3  IF:10.7/10.8 | Submit date:2024/05/16
Conjugated Polymers  Deficient G-c3n4  Solar Hydrogen  Single-atom  Evolution  Crystalline  Semiconductors  H-2  
Non−noble single−atom alloy for electrocatalytic nitrate reduction using hierarchical high−throughput screening Journal article
Wang,Shuo, Li,Lei, Hui,Kwan San, Dinh,Duc Anh, Lu,Zhiyi, Zhang,Qiuju, Hui,Kwun Nam. Non−noble single−atom alloy for electrocatalytic nitrate reduction using hierarchical high−throughput screening[J]. Nano Energy, 2023, 113, 108543.
Authors:  Wang,Shuo;  Li,Lei;  Hui,Kwan San;  Dinh,Duc Anh;  Lu,Zhiyi; et al.
Favorite | TC[WOS]:21 TC[Scopus]:21  IF:16.8/16.3 | Submit date:2023/08/03
Ammonia Synthesis  High−throughput Calculations  Nitrate Reduction Reaction  Ph Influence  Single−atom Alloy  
Directional electron transfer in single-atom cobalt nanozyme for enhanced photo-Fenton-like reaction Journal article
Liu,Shiang, Hu,Yuwen, Xu,Haojie, Lou,Zhangrong, Chen,Jianrong, Yuan,Cheng Zong, Lv,Xingshuai, Duan,Xiaoguang, Wang,Shaobin, Wu,Xi Lin. Directional electron transfer in single-atom cobalt nanozyme for enhanced photo-Fenton-like reaction[J]. Applied Catalysis B: Environmental, 2023, 335, 122882.
Authors:  Liu,Shiang;  Hu,Yuwen;  Xu,Haojie;  Lou,Zhangrong;  Chen,Jianrong; et al.
Favorite | TC[WOS]:37 TC[Scopus]:38  IF:20.2/18.9 | Submit date:2023/08/03
Nanozyme  Persulfate  Photo-fenton-like Reaction  Single-atom Catalysis  Synergistic Effects  
How water molecules occupying the active site of a single-atom catalyst affect the electrochemical reduction of carbon dioxide Journal article
Zhao,Jia, Liu,Di, Wei,Fenfei, Ip,Weng Fai, Pan,Hui, Lin,Sen. How water molecules occupying the active site of a single-atom catalyst affect the electrochemical reduction of carbon dioxide[J]. Nano Research, 2023, 16(7), 9091-9098.
Authors:  Zhao,Jia;  Liu,Di;  Wei,Fenfei;  Ip,Weng Fai;  Pan,Hui; et al.
Favorite | TC[WOS]:15 TC[Scopus]:12  IF:9.5/9.0 | Submit date:2023/08/03
Ab Initio Molecular Dynamics  Density Functional Theory  Electrocatalytic Co2 Reduction  Single-atom Catalysis  Solvent Effect  
Regulating electronic structure of CoN4 with axial Co—S for promoting oxygen reduction and Zn-air battery performance Journal article
Chen, Chang, Chen, Zhiqiang, Zhong, Junxi, Song, Xin, Chen, Dongfang, Liu, Shoujie, Cheong, Weng Chon, Li, Jiazhan, Tan, Xin, He, Chang, Zhang, Jiaqi, Liu, Di, Yuan, Qiuhua, Chen, Chen, Peng, Qing, Li, Yadong. Regulating electronic structure of CoN4 with axial Co—S for promoting oxygen reduction and Zn-air battery performance[J]. NANO RESEARCH, 2023, 16(4), 4211–4218.
Authors:  Chen, Chang;  Chen, Zhiqiang;  Zhong, Junxi;  Song, Xin;  Chen, Dongfang; et al.
Favorite | TC[WOS]:11 TC[Scopus]:11  IF:9.5/9.0 | Submit date:2023/01/30
Axial Co—s Coordination  Electronic Structure Regulation  Oxygen Reduction  Single-atom Co  Zn-air Battery  
Modulation of oxygen-etching for generating nickel single atoms for efficient electroreduction of CO2 to syngas (CO/H2) Journal article
Li, Jiwei, Xu, Junli, Zhao, Jia, Fang, Yixin, Du, Congcong, Ding, Xingyu, Ye, Jinyu, Sun, Yifei, Zhang, Kelvin H.L., Xie, Shunji, Huang, Jianyu, Salaev, Mikhail, Mamontov, Grigory, Ip, Weng Fai, Pan, Hui, Lin, Sen, Xiong, Haifeng. Modulation of oxygen-etching for generating nickel single atoms for efficient electroreduction of CO2 to syngas (CO/H2)[J]. Journal of Catalysis, 2023, 421, 332-341.
Authors:  Li, Jiwei;  Xu, Junli;  Zhao, Jia;  Fang, Yixin;  Du, Congcong; et al.
Favorite | TC[WOS]:13 TC[Scopus]:13  IF:6.5/7.0 | Submit date:2023/06/05
Electrochemical Reduction Of Co2  Ni Single-atom Catalyst  Oxygen Etching  Syngas (Co/h2)  
High-Density Atomic Fe–N4/C in Tubular, Biomass-Derived, Nitrogen-Rich Porous Carbon as Air-Electrodes for Flexible Zn–Air Batteries Journal article
Jiao, Chuanlai, Xu, Zian, Shao, Jingze, Xia, Yu, Tseng, Jochi, Ren, Guangyuan, Zhang, Nianji, Liu, Pengfei, Liu, Chongxuan, Li, Guangshe, Chen, Shi, Chen, Shaoqing, Wang, Hsing Lin. High-Density Atomic Fe–N4/C in Tubular, Biomass-Derived, Nitrogen-Rich Porous Carbon as Air-Electrodes for Flexible Zn–Air Batteries[J]. Advanced Functional Materials, 2023, 33(20), 2213897.
Authors:  Jiao, Chuanlai;  Xu, Zian;  Shao, Jingze;  Xia, Yu;  Tseng, Jochi; et al.
Favorite | TC[WOS]:33 TC[Scopus]:72  IF:18.5/19.6 | Submit date:2023/06/05
Biomass-derived Materials  Flexible Zn–air Batteries  Hierarchical Porous Structures  Single-atom Catalysts