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王志坚(副研究员)

  

  王志坚,博士,副研究员,河北省保定人,19823月生。

  教育经历及工作经历

  2002.9 – 2006.7,河北师范大学,应用化学,学士

  2006.9 – 2011.6,中国科学院山西煤炭化学研究所,材料学,博士

  2011.7 – 2017.11,中国科学院山西煤炭化学研究所,助理研究员

  2017.2 – 2018.2,国家留学基金委公派新加坡南洋理工大学访问学者

  2017/12 – 今,中国科学院山西煤炭化学研究所,副研究员

   

   

  研究方向:沥青基储能硬炭的技术研发及产业化 

  Emailwangzhijian@sxicc.ac.cn

  

 

  论文:

[1] Revealing the Role of Surface Elementary Doping in Photocatalysis, Catal. Sci. Technol., 2022, 12, 3634-3638. (IF: 6.177) 通讯作者

[2] Removing semiconductor-cocatalyst interfacial electron transfer induced bottleneck for efficient photocatalysis: A case study on Pt-CdS photocatalyst, Journal of Catalysis, 2022, 408, 270–278. (IF: 8.047) 第一作者

[3] Nanostructuring Bridges Semiconductor–Cocatalyst Interfacial Electron Transfer, J. Phys. Chem. Lett., 2020, 11, 4644−4648. (IF: 6.888) 第一作者

[4] Light-Intensity-Dependent Semiconductor−Cocatalyst Interfacial Electron Transfer: A Dilemma of Sunlight-Driven Photocatalysis, J. Phys. Chem. Lett. 2020, 11, 2369−2373. (IF: 6.888) 第一作者

[5] Synergetic effect of N, S-codoped carbon and CoOx nanodots derived from ZIF-67 as highly efficient cocatalyst over CdS nanorods, Sustainable Energy & Fuels, 2020, 4, 1954–1962. (IF: 6.813) 通讯作者

[6] Fabricating NixCo1−xO@C cocatalysts sensitized by CdS through electrostatic interaction for efficient photocatalytic H2 evolution, International Journal of Hydrogen Energy, 2020, 45, 28437–28446. (IF: 7.139) 通讯作者

[7] Semiconductor-Cocatalyst Interfacial Electron Transfer Dominates Photocatalytic Reaction, J. Phys. Chem. C, 2019, 40, 24404-24408. (IF: 4.177) 第一作者

[8] Self-assembly of threedimensional CdS nanosphere/graphene networks for efficient photocatalytic hydrogen evolution, Journal of Energy Chemistry, 2019, 31, 34-38. (IF: 13.599) 第一作者

[9] Improving Methane Selectivity of Photo-Induced CO2 Reduction on Carbon Dots through Modification of Nitrogen-Containing Groups and Graphitization, Applied Catalysis B-Environmental, 2018, 232, 86–92. (IF: 24.319) 通讯作者

[10] Fabricating efficient CdSe–CdS photocatalyst systems by spatially resetting water splitting sites, J. Mater. Chem. A, 2017, 5, 20131–20135. (IF: 14.511) 第一作者

[11] Synergetic effect of Ni(OH)2 cocatalyst and CNT for high hydrogen generation on CdS quantum dot sensitized TiO2 photocatalyst, Applied Catalysis B-Environmental, 2017, 204, 577–583. (IF: 24.319) 通讯作者

[12] A 2D/1D TiO2 nanosheet/CdS nanorods heterostructure with enhanced photocatalytic water splitting performance for H2 evolution, International Journal of Hydrogen Energy, 2018, 43, 7388-7396. (IF: 7.139) 通讯作者

[13] Structure-controlled CdS (0D, 1D, 2D) embedded onto 2D ZnS porous nanosheets for highly efficient photocatalytic hydrogen generation, RSC Advances, 2017, 7(40):24864-24869. (IF: 4.036) 通讯作者

[14] Green oxidation of bio-lactic acid with H2O2 into tartronic acid under UV irradiation, RSC Advances, 2016, 6, 41007-41010. (IF: 4.036) 通讯作者

[15] Self-assembly of CNH nanocages with remarkable catalytic performance, J. Mater. Chem. A, 2014, 2, 8179-8183. (IF: 14.511) 通讯作者

[16] The inherent kinetic electrochemical reduction of oxygen into H2O on FeN4-carbon: A density functional theory study, Journal of Power Sources, 2014, 255, 65-69. (IF: 9.794) 通讯作者

[17] Nitrogen-Promoted Self-Assembly of N-Doped Carbon Nanotubes and Their Intrinsic Catalysis for Oxygen Reduction in Fuel Cells, ACS Nano, 2011, 5(3): 1677-1684. (IF: 18.027) 第一作者

    

团队成员  

王志坚(副研究员)

  

  王志坚,博士,副研究员,河北省保定人,19823月生。

  教育经历及工作经历

  2002.9 – 2006.7,河北师范大学,应用化学,学士

  2006.9 – 2011.6,中国科学院山西煤炭化学研究所,材料学,博士

  2011.7 – 2017.11,中国科学院山西煤炭化学研究所,助理研究员

  2017.2 – 2018.2,国家留学基金委公派新加坡南洋理工大学访问学者

  2017/12 – 今,中国科学院山西煤炭化学研究所,副研究员

   

   

  研究方向:沥青基储能硬炭的技术研发及产业化 

  Emailwangzhijian@sxicc.ac.cn

  

 

  论文:

[1] Revealing the Role of Surface Elementary Doping in Photocatalysis, Catal. Sci. Technol., 2022, 12, 3634-3638. (IF: 6.177) 通讯作者

[2] Removing semiconductor-cocatalyst interfacial electron transfer induced bottleneck for efficient photocatalysis: A case study on Pt-CdS photocatalyst, Journal of Catalysis, 2022, 408, 270–278. (IF: 8.047) 第一作者

[3] Nanostructuring Bridges Semiconductor–Cocatalyst Interfacial Electron Transfer, J. Phys. Chem. Lett., 2020, 11, 4644−4648. (IF: 6.888) 第一作者

[4] Light-Intensity-Dependent Semiconductor−Cocatalyst Interfacial Electron Transfer: A Dilemma of Sunlight-Driven Photocatalysis, J. Phys. Chem. Lett. 2020, 11, 2369−2373. (IF: 6.888) 第一作者

[5] Synergetic effect of N, S-codoped carbon and CoOx nanodots derived from ZIF-67 as highly efficient cocatalyst over CdS nanorods, Sustainable Energy & Fuels, 2020, 4, 1954–1962. (IF: 6.813) 通讯作者

[6] Fabricating NixCo1−xO@C cocatalysts sensitized by CdS through electrostatic interaction for efficient photocatalytic H2 evolution, International Journal of Hydrogen Energy, 2020, 45, 28437–28446. (IF: 7.139) 通讯作者

[7] Semiconductor-Cocatalyst Interfacial Electron Transfer Dominates Photocatalytic Reaction, J. Phys. Chem. C, 2019, 40, 24404-24408. (IF: 4.177) 第一作者

[8] Self-assembly of threedimensional CdS nanosphere/graphene networks for efficient photocatalytic hydrogen evolution, Journal of Energy Chemistry, 2019, 31, 34-38. (IF: 13.599) 第一作者

[9] Improving Methane Selectivity of Photo-Induced CO2 Reduction on Carbon Dots through Modification of Nitrogen-Containing Groups and Graphitization, Applied Catalysis B-Environmental, 2018, 232, 86–92. (IF: 24.319) 通讯作者

[10] Fabricating efficient CdSe–CdS photocatalyst systems by spatially resetting water splitting sites, J. Mater. Chem. A, 2017, 5, 20131–20135. (IF: 14.511) 第一作者

[11] Synergetic effect of Ni(OH)2 cocatalyst and CNT for high hydrogen generation on CdS quantum dot sensitized TiO2 photocatalyst, Applied Catalysis B-Environmental, 2017, 204, 577–583. (IF: 24.319) 通讯作者

[12] A 2D/1D TiO2 nanosheet/CdS nanorods heterostructure with enhanced photocatalytic water splitting performance for H2 evolution, International Journal of Hydrogen Energy, 2018, 43, 7388-7396. (IF: 7.139) 通讯作者

[13] Structure-controlled CdS (0D, 1D, 2D) embedded onto 2D ZnS porous nanosheets for highly efficient photocatalytic hydrogen generation, RSC Advances, 2017, 7(40):24864-24869. (IF: 4.036) 通讯作者

[14] Green oxidation of bio-lactic acid with H2O2 into tartronic acid under UV irradiation, RSC Advances, 2016, 6, 41007-41010. (IF: 4.036) 通讯作者

[15] Self-assembly of CNH nanocages with remarkable catalytic performance, J. Mater. Chem. A, 2014, 2, 8179-8183. (IF: 14.511) 通讯作者

[16] The inherent kinetic electrochemical reduction of oxygen into H2O on FeN4-carbon: A density functional theory study, Journal of Power Sources, 2014, 255, 65-69. (IF: 9.794) 通讯作者

[17] Nitrogen-Promoted Self-Assembly of N-Doped Carbon Nanotubes and Their Intrinsic Catalysis for Oxygen Reduction in Fuel Cells, ACS Nano, 2011, 5(3): 1677-1684. (IF: 18.027) 第一作者

    
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