教授

黄彩进

日期:2022-08-30 发布人: 浏览量:


 

姓名彩进

 

职称:研究员

 

所在系:环境科学与工程系

 

研究方向能源与环境光催化

 

个人简历

黄彩博士,福州大学能源与环境光催化国家重点实验室博士生导师。本科毕业于厦门大学,博士毕业于法国勃艮第大学。德国马普研究所高级访问学者。曾任福州市科协副主席2023全球前2%顶尖科学家。主要从事能源与环境光催化研究,尤其是氢能源技术。主持多项国家自然科学基金面上项目以及参与国自然重点项目。论文发表在Nature Communications, Chem. Eng. Sci., Nano Lett., Phys.Rev. B, J. Mater. Chem. A, Applied Catalysis B等期刊上,其中有2篇被Nature Photonics期刊hightlight

 

科研项目

主持:

 

2021年国家基金面上项目

2018年国外合作项目/2017年中德合作科研项目

2017年国家基金联合项目

2015年国家基金主任基金

2013年国家基金面上项目

2012年福建省自然科学基金面上项目  

2012年福州大学科技发展基金

2010年福州大学校人才基金

 

参与:

2014年国家基金海峡联合基金项目(重点项目)

2017年国家基金国家(地区)合作与交流项目(重点项目)

 

代表性论文:

 

# C. Huang, C. Chen, M. Zhang, L. Lin, X. Ye, S. Lin, M. Antonietti, X. Wang, Carbon-doped BN nanosheets for metal-free photoredox catalysis, Nature communications, 6 (2015).

# R. Zeng, C. Cheng, F. Xing, Y. Zou, K. Ding, C. Huang, Dual vacancies induced local polarization electric field for high-performance photocatalytic H2 production. Applied Catalysis B: Environmental 316, (2022).

# F. Xing, R. Zeng, C. Cheng, Q. Liu, C. Huang, POM-incorporated ZnIn2S4 Z-scheme dual-functional photocatalysts for cooperative benzyl alcohol oxidation and H2 evolution in aqueous solution. Applied Catalysis B: Environmental 306, 121087 (2022).

# C. Cheng, J. Zhang, R. Zeng, F. Xing, C. Huang, Schottky barrier tuning via surface plasmon and vacancies for enhanced photocatalytic H2 evolution in seawater. Applied Catalysis B: Environmental 310, 121321 (2022).

# F. Xing, C. Cheng, J. Zhang, Q. Liu, C. Chen, C. Huang, Tunable charge transfer efficiency in HxMoO3@ZnIn2S4 hierarchical direct Z-scheme heterojunction toward efficient visible-light-driven hydrogen evolution. Applied Catalysis B: Environmental 285, 119818 (2021).

# J. Zhang, C. Cheng, F. Xing, C. Chen, C. Huang, 0D β-Ni(OH)2 nanoparticles/1D Mn0.3Cd0.7S nanorods with rich S vacancies for improved photocatalytic H2 production.    Chemical Engineering Journal 414, 129157 (2021).

# X. Guo, C. Cheng, F. Xing, C. Huang, Engineering highly active Cd1−xZnxS nanopopcorns via zinc blende/wurtzite phase junctions for enhanced photocatalytic H2 evolution without a co-catalyst. Journal of Materials Chemistry A 9, 7913-7923 (2021).

# M. Zhou, Z. Chen, P. Yang, S. Wang, C. Huang, X. Wang, Hydrogen reduction treatment of boron carbon nitrides for photocatalytic selective oxidation of alcohols, Applied Catalysis B: Environmental, 276 (2020) 118916.

# X. Jiang, H. Gong, Q. Liu, M. Song, C. Huang, In situ construction of NiSe/Mn0.5Cd0.5S composites for enhanced photocatalytic hydrogen production under visible light, Applied Catalysis B: Environmental, 268 (2020) 118439.

# Q. Liu, Y. Wu, F. Xing, Q. Liu, X. Guo, C. Huang, B2O3@BPO4 sandwich-like hollow spheres as metal-free supported liquid-phase catalysts, Journal of Catalysis, 381 (2020) 599-607.

# M. Song, M. Du, Q. Liu, F. Xing, C. Huang, X. Qiu, Enhancement of photocatalytic activities in hierarchical BiOBr microflowers induced by oxygen vacancies, Catalysis Today, 335 (2019) 193-199.

# W. Ren, J. Cheng, H. Ou, C. Huang, M.-M. Titirici, X. Wang, Enhancing Visible-Light Hydrogen Evolution Performance of Crystalline Carbon Nitride by Defect Engineering, ChemSusChem, 12 (2019) 3257-3262.

# Q. Liu, Y. Xu, X. Qiu, C. Huang, M. Liu, Chemoselective hydrogenation of nitrobenzenes activated with tuned Au/h-BN, Journal of Catalysis, 370 (2019) 55-60.

# Z. Chen, H. Gong, Q. Liu, M. Song, C. Huang, NiSe2 Nanoparticles Grown in Situ on CdS Nanorods for Enhanced Photocatalytic Hydrogen Evolution, ACS Sustainable Chemistry & Engineering, 7 (2019) 16720-16728.

# M. Zhou, P. Yang, S. Wang, Z. Luo, C. Huang, X. Wang, Structure-Mediated Charge Separation in Boron Carbon Nitride for Enhanced Photocatalytic Oxidation of Alcohol, ChemSusChem, 11 (2018) 3949-3955.

# M. Zhou, S. Wang, P. Yang, C. Huang, X. Wang, Boron Carbon Nitride Semiconductors Decorated with CdS Nanoparticles for Photocatalytic Reduction of CO2, ACS Catalysis, 8 (2018) 4928-4936.

# F. Xing, Q. Liu, M. Song, C. Huang, Fluorine Modified Boron Carbon Nitride Semiconductors for Improved Photocatalytic CO2 Reduction under Visible Light, ChemCatChem, 10 (2018) 5270-5279.

# C. Huang, J. Hu, W. Fan, X. Wu, X. Qiu, Porous cubic bismuth oxide nanospheres: A facile synthesis and their conversion to bismuth during the reduction of nitrobenzenes, Chemical Engineering Science, 131 (2015) 155-161.

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