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兰州大学机构库

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Unveiling the high activity origin of NiFe catalysts decorated Ta3N5 photoanodes for oxygen evolution reaction 期刊论文
APPLIED CATALYSIS B-ENVIRONMENTAL, 2023, 卷号: 338
Authors:  Dong, Congzhao;  Zhang, Xian;  Ding, Y(丁勇);  Zhang, Yajun;  Bi, Yingpu
Favorite  |    Submit date:2023/09/04
Binary alloys  Catalyst activity  Catalytic oxidation  Deposition  Nanocatalysts  Oxygen  Photoelectrochemical cells  Solar energy conversion  Bimetallics  High activity  Intrinsic activities  Nano layers  Oxygen evolution  Photo-anodes  Photoelectrochemical water splitting  Reversible hydrogen electrodes  Water splitting  ]+ catalyst  
Key modification strategies for the rational design of hematite to promote photoelectrochemical water oxidation: a review of recent advances 期刊论文
Materials Chemistry Frontiers, 2023, 卷号: 7, 期号: 21, 页码: 5333-5354
Authors:  Hu, Chunlian;  Li, Xiaohu;  Dong, Congzhao;  Li, Bonan;  Zhang, Xi;  Sun, Wanjun;  Ding, Yong
Favorite  |    Submit date:2023/11/28
Coupling Ni3POM with FeOOH on BiVO4 Photoanodes for Efficient Photoelectrochemical Water Splitting 期刊论文
ACS Sustainable Chemistry and Engineering, 2023, 卷号: 11, 期号: 19, 页码: 7367-7377
Authors:  Hu, Chunlian;  Xu, Chunjiang;  Li, Xiaohu;  Li, Bonan;  Ma, Xiaoshuo;  Zhu, Jiayu;  Dong, Congzhao;  Ding, Y(丁勇)
Favorite  |    Submit date:2023/07/18
Bismuth  Bismuth compounds  Nickel compounds  Oxides  Photoelectrochemical cells  Precious metals  Reaction kinetics  Solar fuels  Surface reactions  Bismuth vanadates  Co catalysts  Metal free  Photo-anodes  Photocurrent density  Photoelectrochemical performance  Photoelectrochemical water oxidation  Photoelectrochemical water splitting  Photoelectrochemicals  Polyoxometalates  
Coupling Ni3POM with FeOOH on BiVO4 Photoanodes for Efficient Photoelectrochemical Water Splitting 期刊论文
ACS Sustainable Chemistry & Engineering, 2023, 卷号: 11, 期号: 19, 页码: 7367-7377
Authors:  Hu, Chunlian;  Xu, Chunjiang;  Li, Xiaohu;  Li, Bonan;  Ma, Xiaoshuo;  Zhu, Jiayu;  Dong, Congzhao;  Ding, Yong
Favorite  |    Submit date:2023/07/18
bismuth vanadate  polyoxometalates  photoelectrochemical water oxidation  photoanode  
Revealing different depth boron substitution on interfacial charge transfer in TiO2 for enhanced visible-light H2 production 期刊论文
APPLIED CATALYSIS B-ENVIRONMENTAL, 2022, 卷号: 315
Authors:  Ma, Kangwei;  Zhang, Meiyu;  Sun, Wanjun;  Dong, Congzhao;  Dong, Yinjuan;  Hao, Weichang;  Ding, Y(丁勇)
Favorite  |    Submit date:2022/11/08
Charge transfer  Deposition  Fossil fuels  Hydrogen production  Ions  Light  Magnetic semiconductors  Photocatalytic activity  Semiconductor doping  Structural optimization  Anion doping  Bulk-doped  Doped-TiO  H 2 production  Interfacial charge transfer  Photogenerated carriers  Research potential  Surface-doped  TiO 2  Visible light  
Revealing different depth boron substitution on interfacial charge transfer in TiO2 for enhanced visible-light H-2 production 期刊论文
APPLIED CATALYSIS B-ENVIRONMENTAL, 2022, 卷号: 315
Authors:  Ma, Kangwei;  Zhang, Meiyu;  Sun, Wanjun;  Dong, Congzhao;  Dong, Yinjuan;  Hao, Weichang;  Ding, Yong
Favorite  |    Submit date:2022/07/25
Photocatalysis  Bulk-doped  Surface-doped  H-2 production  TiO2  
Revealing different depth boron substitution on interfacial charge transfer in TiO2 for enhanced visible-light H2 production 期刊论文
APPLIED CATALYSIS B-ENVIRONMENTAL, 2022, 卷号: 315
Authors:  Ma, Kangwei;  Zhang, Meiyu;  Sun, Wanjun;  Dong, Congzhao;  Dong, Yinjuan;  Hao, Weichang;  Ding, Yong
Favorite  |    Submit date:2023/01/03
Charge transfer  Deposition  Fossil fuels  Hydrogen production  Ions  Light  Magnetic semiconductors  Photocatalytic activity  Semiconductor doping  Structural optimization  Anion doping  Bulk-doped  Doped-TiO  H 2 production  Interfacial charge transfer  Photogenerated carriers  Research potential  Surface-doped  TiO 2  Visible light  
Boosting Hydrogen Evolution Performance of a CdS-Based Photocatalyst: In Situ Transition from Type i to Type II Heterojunction during Photocatalysis 期刊论文
ACS Catalysis, 2022, 卷号: 12, 期号: 16, 页码: 10115-10126
Authors:  Meng, Xiangyu;  Wang, Shuyan;  Zhang, Chenchen;  Dong, Congzhao;  Li, Rui;  Li, Bonan;  Wang, Q(王强);  Ding, Y(丁勇)
Favorite  |    Submit date:2022/11/08
Absorption spectroscopy  Electric fields  Heterojunctions  Hydrogen  II-VI semiconductors  Ion exchange  Sulfur  Hybrid photocatalysts  Hydrogen evolution reactions  Ion exchange reactions  Photocatalytic hydrogen evolution  Prussian blue  Prussian blue analogues  Reaction performance  Sacrificial reagent  Type I and type II heterojunction  Type II heterojunction  
Boosting Hydrogen Evolution Performance of a CdS-Based Photocatalyst: In Situ Transition from Type I to Type II Heterojunction during Photocatalysis 期刊论文
ACS Catalysis, 2022, 卷号: 12, 期号: 16, 页码: 10115-10126
Authors:  Meng, Xiangyu;  Wang, Shuyan;  Zhang, Chenchen;  Dong, Congzhao;  Li, Rui;  Li, Bonan;  Wang, Qiang;  Ding, Yong
Favorite  |    Submit date:2022/11/09
performance. Prussian blue  ion exchange reaction  photocatalytic hydrogen evolution  type I and type II heterojunctions  
Boosting Hydrogen Evolution Performance of a CdS-Based Photocatalyst: In Situ Transition from Type i to Type II Heterojunction during Photocatalysis 期刊论文
ACS Catalysis, 2022, 卷号: 12, 期号: 16, 页码: 10115-10126
Authors:  Meng, Xiangyu;  Wang, Shuyan;  Zhang, Chenchen;  Dong, Congzhao;  Li, Rui;  Li, Bonan;  Wang, Qiang;  Ding, Y(丁勇)
Favorite  |    Submit date:2023/01/03
Absorption spectroscopy  Electric fields  Heterojunctions  Hydrogen  II-VI semiconductors  Ion exchange  Sulfur  Hybrid photocatalysts  Hydrogen evolution reactions  Ion exchange reactions  Photocatalytic hydrogen evolution  Prussian blue  Prussian blue analogues  Reaction performance  Sacrificial reagent  Type I and type II heterojunction  Type II heterojunction