硕士研究生导师
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程刚

作者:发布时间:2016-03-17点击率:

 

                                                                                           

 

程刚,男,1984年生,湖北黄冈人,博士,特聘教授,硕士生导师。2012年获得海外国家公派建设高水平大学研究生项目资助,2014年毕业于韩国全北国立大学化学工程专业,获工学博士学位同年进入武汉工程大学,主要从事化学、化工、环境领域的教学和科研工作,涉及无机化学、分析化学、物理化学、应用化学、电化学、材料与环境化工。主持过纵向和横向等多项科研项目,发表SCI论文获国家授权发明专利项。指导研究生多人获得国家奖学金和优秀硕士毕业论文,并有多人前往国内外攻读博士研究生学位。并指导本科生参加学科竞赛获奖多项。

欢迎化学、化工、材料、环境等专业的学子加入本课题组!也欢迎在校本科生进入实验室学习!

E-mailgchenglab@163.com;电话:15871687740

地址:武汉工程大学流芳校区大化工楼1412-1413

一、研究方向包括:

1) 功能材料制备与表征分析;

2) 能源与环境催化

3) 生物质催化转化

4) 二氧化碳捕集与催化转化

二、研究项目:

1) 国家自然科学基金;

2) 湖北省自然科学基;

3) 湖北省教育厅科学研究计划项目;

4) 企业横向研发课题。

三、近期代表性论文:

1) Xiao Liu, , Gang Cheng*,et al., "Type II/Schottky heterojunctions-triggered multi-channels charge transfer in Pd-TiO2-Cu2O hybrid promotes photocatalytic hydrogen production". Journal of Colloid and Interface Science, 2025, 685: 173-185.

2) Xiao Liu, …, Gang Cheng*, et al., "Oxidation cocatalyst/S-scheme junction cooperatively assists photocatalytic H2 production in ternary hybrid: The case of PdO@TiO2-Cu2O", Separation and Purification Technology, 2025, 354: 129396.

3) Tianwei Zhao, , Gang Cheng*, et al.. "Oxygen vacancy/metallic sites synergically assists hollow TiO2–induced CO2 photoreduction: Categories and roles". Fuel, 2025, 385: 134107.

4) Gang Cheng, et al., "Recent advances in coupling pollutants degradation with hydrogen production by semiconductor photocatalysis", Chemical Engineering Journal, 2024, 501: 157491.

5) Zhangjing Chen, …, Gang Cheng*, "Recent advances in brookite phase TiO2-based photocatalysts toward CO2 reduction", Fuel, 2024, 357: 129806.

6) Chunyan Wang, …, Gang Cheng*, "Integrated Ni(OH)2-TiO2-Cu2O hybrids with a synergic impact of the p–n heterojunction/cocatalyst for enhanced photocatalytic hydrogen production", Industrial & Engineering Chemistry Research, 2023, 62: 11402-11413.

7) Shuo Li, …, Gang Cheng*, "Fabrication approach impact on solar-to-hydrogen evolution of protonic titanate-derived nano-TiO2", Industrial & Engineering Chemistry Research, 2022, 61: 11347-11356.

8) Ge Yang,…, Gang Cheng*, "Co-embedding oxygen vacancy and copper particles into titanium-based oxides (TiO2, BaTiO3, and SrTiO3) nanoassembly for enhanced CO2 photoreduction through surface/interface synergy", Journal of Colloid and Interface Science, 2022, 624: 348-361.

9) Ge Yang, …, Gang Cheng*, "Facilely anchoring Cu2O nanoparticles on mesoporous TiO2 nanorods for enhanced photocatalytic CO2 reduction through efficient charge transfer", Chinese Chemical Letters, 2022, 33: 3709-3712.

10) Xueteng Zhu, …, Gang Cheng*, et al., "Metallic Copper-Containing Composite Photocatalysts: Fundamental, Materials Design, and Photoredox Applications", Small Methods, 2022, 6: 2101001.

11) Pei Qiu,…, Gang Cheng*, "Integrated p-n/Schottky junctions for efficient photocatalytic hydrogen evolution upon Cu@TiO2-Cu2O ternary hybrids with steering charge transfer", Journal of Colloid and Interface Science, 2022, 622: 924-937.

12) Shuo Li, …, Gang Cheng*, "Recent advances in synthesis strategies and solar-to-hydrogen evolution of 1T phase MS2 (M = W, Mo) co-catalysts", Journal of Materials Science & Technology, 2022, 101: 242-263.

13) Mengmeng Zhang, …, Gang Cheng*, "Surface Potential/Wettability and Interface Charge Transfer Engineering of Copper-Oxide (Cu–MOx, M = W, Ti, and Ce) Hybrids for Efficient Wastewater Treatment through Adsorption–Photocatalysis Synergy", Industrial & Engineering Chemistry Research, 2020, 59: 15454-15463.

14) Jiaxin Zhu, …, Gang Cheng*, "Electrostatically assembled construction of ternary TiO2-Cu@C hybrid with enhanced solar-to-hydrogen evolution employing amorphous carbon dots as electronic mediator", Chemical Engineering Journal, 2019, 375: 121902.

15) Jiaxin Zhu, …, Gang Cheng*, et al., "Promoting solar-to-hydrogen evolution on Schottky interface with mesoporous TiO2-Cu hybrid nanostructures", Journal of Colloid and Interface Science, 2019, 545: 116-127.

16) Yi Wei, Gang Cheng*, et al. "Synergistic impact of cocatalysts and hole scavenger for promoted photocatalytic H2 evolution in mesoporous TiO2-NiSx hybrid", Journal of Energy Chemistry, 2019, 32: 45-56.

17) Yixin Gan, …, Gang Cheng*, "Impact of post-processing modes of precursor on adsorption and photocatalytic capability of mesoporous TiO2 nanocrystallite aggregates towards ciprofloxacin removal", Chemical Engineering Journal, 2018, 349: 1-16.

18) Yi Wei, …, Gang Cheng*, "Achieving photocatalytic hydrogen production from alkaline solution upon designed mesoporous TiO2-Ni hybrid employing commonly-used paper as sacrificial electron donor", Inorganic Chemistry Frontiers, 2018, 5, 2709-2717.

19) Yi Wei, Gang Cheng*, et al., "Positive Ni(HCO3)2 as a Novel Cocatalyst for Boosting the Photocatalytic Hydrogen Evolution Capability of Mesoporous TiO2 Nanocrystals", ACS Sustainable Chemistry & Engineering, 2017, 5 (6): 5027-5038.

20) Feifan Xu, Gang Cheng*, et al., "Insights into promoted adsorption capability of layered BiOCl nanostructures decorated with TiO2 nanoparticles", ACS Sustainable Chemistry & Engineering, 2016, 4 (12): 7013-7022.