付宏刚，男，1962年6月出生。1984年毕业于吉林大学化学系，1987年毕业于吉林大学理论化学研究所并获硕士学位，毕业后留校工作。1988年调入皇冠真人注册（China）官方网站化学系工作至今。1997~1999年在哈尔滨工业大学材料学学科在职攻读博士学位。1995年破格晋升为副教授，2000年晋升为教授，2002年3月被哈尔滨工业大学遴选为博士生导师。现任皇冠真人注册（China）官方网站副校长、化学化工与材料学院教授、博士生导师，功能无机材料化学省部共建教育部重点实验室主任，黑龙江省重点学科(无机化学学科、博士点)学科带头人，功能材料黑龙江省高校重点实验室学术委员会主任，光电与能源环境材料黑龙江省重点实验室主任。

所在学科：无机化学、物理化学

研究方向：主要从事无机化学和物理化学学科中的材料结构理论、晶态半导体材料、介孔材料以及碳材料的合成及性能研究。

讲授课程：现在化学化工进展（本科）、化学专业前沿讲座（本科）；能量转化材料（硕士）、现代结构分析方法（硕士）；能源与环境材料设计（硕士）、专业英语（硕士）；能量转换与存储材料（博士）、高等无机化学选论（博士）、能量转换与存储（博士）、高等无机化学选论（博士）；

学历和工作经历:

学习经历：

1980.9-1984.7，吉林大学，化学，学士学位；

1984.9-1987.7，吉林大学，化学，硕士学位；

1997.7-1999.9，哈尔滨工业大学，材料学，博士学位；

1999.12-2001.12，吉林大学，化学，博士后。

工作经历：

1987.9-1988.3吉林大学科技开发总公司，工程师；

1988.4-2010.11化学化工与材料学院助教、讲师、副教授、教授；副院长、院长；

2010.11-2017.6，皇冠真人注册（China）官方网站副校长；

2017.6-至今皇冠真人注册（China）官方网站党委副书记、校长。

入选人才项目（计划）及荣誉称号：

2004年入选新世纪优秀人才支持计划、龙江学者特聘教授；

2008年入选百千万人才工程、黑龙江省优秀中青年专家；

2010年享受国务院政府特殊津贴。

学术兼职：教育部科技委员会化学化工学部委员，中国化工学会理事，全国应用化学学科委员会委员，中国化学会催化专业委员会委员、黑龙江省化学学会副理事长，吉林大学唐敖庆讲座教授、哈尔滨工业大学和北京理工大学兼职教授。

业绩成果：

近年来，付宏刚教授主要从事晶态纳米碳以及碳基复合体的设计合成及其电催化、电化学性能、SERS等方面研究，对晶态纳米碳形貌控制、碳基复合体的构筑以及性能调控等有创新性认识。付宏刚教授以第一作者共发表了研究论文200余篇，其中被SCI收录180余篇，主要发表在国际著名的Adv. Funct. Mater.、Chem: Eur.J.、Chem. Commun.、J. Mater. Chem.、J. Phys. Chem. B、J. Phys. Chem. C、J. Comput. Chem.、Inorg. Chem.、Appl. Catal. B、Nanotechnology、J. Phys.: Condensed Matter等学术期刊上，影响因子在3.0以上的论文有50余篇，其中影响因子在5.0以上8篇。成果被SCI收录期刊正面他引1400余次。作为第一主持人，付宏刚教授已完成国家自然科学基金项目、国家十一五科技支撑计划、教育部和黑龙江省的重大、重点项目十余项，其中一项国家自然科学基金重点项目和教育部首批新世纪优秀人才支持计划项目均以优秀的成绩结题，所主持的科研项目“纳米光催化材料的表面调控和异质结构建策略”获黑龙江省科学技术奖自然科学类一等（第一获奖人）。现承担国家自然科学基金重点项目、国家自然科学基金面上项目、黑龙江省科技创新团队和教育部重大项目培育资金项目各一项。此外，付宏刚教授还出版专著两部，申请发明专利14项，并应美国科学出版社邀请为纳米科学技术大百科全书撰写了完整的一章。

代表性论著：

代表性著作：

1.《二氧化钛改性材料与光催化》，黑龙江省科学技术出版社，2003.1。

2.《钛酸铅系铁电纳米晶及其结构》，黑龙江省科学技术出版社，2003.1。

3. Jing Liqiang, Fu Honggang*, Pan Kai. Nanostructured TiO2 and ZnO for photocatalysis and photoelectric conversion as a review chapter contributing to the forthcoming second edition of Encyclopedia of Nanoscience and Nanotechnology. American Scientific Publishers 2010, ISBN: 1-58883-001-2. (Invited)

代表性论文：

1.Wei Zhou, Wei Li, Jian-Qiang Wang, Yang Qu, Ying Yang, Ying Xie, Kaifu Zhang, Lei Wang, Honggang Fu*, and Dongyuan Zhao *. Ordered Mesoporous Black TiO2 as Highly Efficient Hydrogen Evolution Photocatalyst. J. Am. Chem. Soc., 2014, 136 (26), 9280–9283.

2.Haijing Yan, Chungui Tian*, Lei Wang, Aiping Wu, Meichen Meng, Lu Zhao, Honggang Fu*,Phosphorus-Modified Tungsten Nitride/Reduced Graphene Oxide as a High-Performance, Non-Noble-Metal Electrocatalyst for the Hydrogen Evolution Reaction,Angew. Chem. Int. Ed.,2015, 54, 6325-6329.

3.Shien Guo, Zhaopeng Deng, Mingxia Li, Baojiang Jiang*, Chungui Tian, Qingjiang Pan, Honggang Fu*, Phosphorus-Doped Carbon Nitride Tubes with a Layered Micronanostructure for Enhanced Visible-Light Photocatalytic Hydrogen Evolution, Angew. Chem. Int. Ed., 2016, 55, 1830 -1834.

4.Haijing Yan, Ying Xie, Yanqing Jiao, Aiping Wu, Chungui Tian,* Xiaomeng Zhang, Holey Reduced Graphene Oxide Coupled with an Mo₂N-Mo₂C Heterojunction for Efficient Hydrogen Evolution，Adv. Mater., 2017, 1704156.

5.Bojing Sun, Wei Zhou*, Haoze Li, Liping Ren, Panzhe Qiao, Wei Li*, Honggang Fu*, Adv. Mater., 1804282.

6.Haijing Yan, Chungui Tian,* Li Sun, Bo Wang, Lei Wang, Jie Yin, Aiping Wu and Honggang Fu*, Small-sized and high-dispersed WN from[SiO₄(W₃O₉)₄]^4-clusters loading on GO-derived graphene as promising carriers for methanol electro-oxidation,Energy Environ. Sci., 2014, 7, 1939-1949. (SCI, IF: 29.518,他引57次)

7.Mingzheng Xie, Xuedong Fu, Liqiang Jing*, Peng Luan, Yujie Feng, Honggang Fu,* Long-Lived, Visible-Light-Excited Charge Carriers of TiO₂/BiVO₄Nanocomposites and their Unexpected Photoactivity for Water Splitting, Adv. Energy. Mater., 2013, 1300995.

8.Yunbo Luan, Liqiang Jing LQ*, Ying Xie, Yujie Feng*, and Honggang Fu*, Exceptional Photocatalytic Activity of 001-Facet-Exposed TiO₂Mainly Depending on Enhanced Adsorbed Oxygen by Residual Hydrogen Fluoride, ACS Catal., 2013, 3, 1378–1385.

9.Liqiang Jing, Wei Zhou, Guohui Tian and Honggang Fu*, Surface tuning for oxide-based nanomaterials as efficient photocatalysts, Chem. Soc. Rev., 2013, 42, 9509—9549.

10.Aiping Wu, Ying Xie, Hui Ma, Chungui Tian*, Ying Gu, Haijing Yan, Xiaomeng Zhang, Guoyu Yang, Honggang Fu*,Integrating the active OER and HER components as the heterostructures for the efficient overall water splitting,Nano Energy,2018, 44, 353–363. (SCI, IF: 12.343,他引1次)

11.Congfang Chen, Aiping Wu, Haijing Yan, Yinglu Xiao, Chungui Tian* and Honggang Fu*, Trapping [PMo₁₂O₄₀]³⁻clusters into pre-synthesized ZIF-67 toward MoxCoxC particles confined in uniform carbon polyhedrons for efficient overall water splitting,Chem. Sci.9, 4746–4755. (SCI, IF: 8.668)

12.Peng Yu, Lei Wan* Ying Xie，Chungui Tian, Fanfei Sun, Jingyuan Ma, Miaomiao Tong, Wei Zhou, Jinghong Li, Honggang Fu*, High-Efficient, Stable Electrocatalytic Hydrogen Evolution in Acid Media by Amorphous FexP Coating Fe2N Supported on Reduced Graphene Oxide, Small, 2018, 14, 1801717.

13.Kaifu Zhang, Wei Zhou*, Xiangcheng Zhang, Bojing Sun, Lei Wang, Kai Pan, Baojiang Jiang, Guohui Tian, Honggang Fu*, Self-floating amphiphilic black TiO₂foams with 3D macro-mesoporous architectures as efficient solar-driven photocatalysts, Appl. Catal. B: Environ., 2017, 206, 336-343.

14.Bojing Sun, Wei Zhou*, Haoze Li, Liping Ren, Panzhe Qiao, Fang Xiao, Lei Wang, Baojiang Jiang, Honggang Fu*, Magnetic Fe2O3/mesoporous black TiO2 hollow sphere heterojunctions with wide-spectrum response and magnetic separation, Appl. Catal. B: Environ., 2018, 221, 235-242.

15.Aiping Wu, ChunguiTian, YanqingJiao, QingYan, GuoyuYang*, HonggangFu*. Sequential two-step hydrothermal growth of MoS_2/CdS core-shell heterojunctions for efficient visible light-driven photocatalytic H₂evolution, Applied Catalysis B:Environmental, 2017, 203, 955–963.

16.Yong Jiang, Hongyan Ning, Chungui Tian, Baojiang Jiang*, Qi Li, Haijing Yan, Xuliang Zhang, Jianqiang Wang, Liqiang Jing, Honggang Fu*, Single-crystal TiO2 nanorods assembly for efficient and stable cocatalyst-free photocatalytic hydrogen evolution, Applied Catalysis B: Environmental, 2018, 229, 1-7.

17.Haijing Yan, Yanqing Jiao, Aiping Wu, Chungui Tian,* Lei Wang, Xiaomeng Zhang and Honggang Fu*, Synergism of molybdenum nitride and palladium for high-efficiency formic acid electrooxidation, J. Mater. Chem. A, 2018, 6, 7623-7630. (SCI, IF: 8.867)

18.Yunqi Tang, Meng Yuan, Baojiang Jiang,* Yuting Xiao, Yu Fu, Shuai Chen, Zhaopeng Deng, Qingjiang Pan, Chungui Tian and Honggang Fu*, Inorganic acid-derived hydrogen-bonded organic frameworks to form nitrogen-rich carbon nitrides for photocatalytic hydrogen evolution, J. Mater. Chem. A, 2017, 5, 21979-21985.

19.Weiyao Hu, Wei Zhou*, Kaifu Zhang, Xiangcheng Zhang, Lei Wang, Baojiang Jiang, Guohui Tian, Dongyuan Zhao, Honggang Fu*. Facile strategy for controllable synthesis of stable mesoporous black TiO2 hollow spheres with efficient solar-driven photocatalytic hydrogen evolution, J. Mater. Chem. A, 2016, 4, 7495-7502.

20.Wang Xi, Zhiyu Ren,* Lingjun Kong, Jun Wu, Shichao Du, Jiaqing Zhu, Yuzhu Xue, Huiyuan Meng and Honggang Fu*. Dual-valence nickel nanosheets covered with thin carbon as bifunctional electrocatalysts for full water splitting, J. Mater. Chem. A, 2016, 4, 7297-7304.

21.Yu Hong, Chungui Tian*, Baojiang Jiang, Aiping Wu , Qi Zhang , Guohui Tian and Honggang Fu*, Facile synthesis of sheet-like ZnO assembly composed of small ZnO particles for highly efficient photocatalysis,J. Mater. Chem. A, 2013, 1, 5700-5708.

22.Qi Zhang, Chungui Tian*, Aiping Wu, Taixing Tan, Li Sun, Lei Wang and Honggang Fu*, A facile one-pot route for the controllable growth of small sized and well-dispersed ZnO particles on GO-derived graphene,J. Mater. Chem.,2012, 22, 11778-11784. (SCI, IF: 8.867，他引101次)

23.Wang L, Mu G, Tian CG, Fu HG*, Porous Graphitic Carbon Nanosheets Derived from Biomass Cornstalks for Advanced Supercapacitors, ChemSusChem, 2013, 6, 880-889. (IF: 6.814)

24.Shichao Du, Zhiyu Ren*,Yang Qu, Jun Wu, Wang Xi, Jiaqing Zhu and Honggang Fu*. Co₃O₄nanosheets as a high-performance catalyst for oxygen evolution proceeding via a double two-electron process, Chem. Commun., 2016, 52, 6705-6708.

25.Haijing Yan, Yanqing Jiao, Aiping Wu, Chungui Tian,* Xiaomeng Zhang, Lei Wang, Zhiyu Ren and Honggang Fu*, Cluster-like molybdenum phosphide anchored on reduced graphene oxide for efficient hydrogen evolution over a broad pH range,Chem. Commum.,2016, 52(61), 9530-9533. (SCI，IF: 6.567)

26.Chungui Tian, Qi Zhang , Aiping Wu , Meijia Jiang , Zhenglan Liang , Baojiang Jiang and Honggang Fu*, Cost-effective large-scale synthesis of ZnO photocatalyst with excellent performance for dye photodegradation,Chem. Commum., 2012, 48, 2858-2860.

27.Dongdong Zhao, Peng Yu,Lei Wang*, Fanfei Sun, Li Zhao, Chungui Tian, Wei Zhou, Honggang Fu*. Self-supported Ni6MnO8 3D mesoporous nanosheet arrays with ultrahigh lithium storage properties and conversion mechanism by in-situ XAFs.Nano Res., 2017, 10, 263–275.

28.Xiuwen Wang, Ying Xie, Buhe Bateer, Kai Pan,* Yangtao Zhou, Yi Zhang, Guofeng Wang, Wei Zhou, and Honggang Fu*. Hexagonal FeS nanosheets with high-energy (001) facets: Counter electrode materials superior to platinum for dye-sensitized solar cells，Nano Res., 2016, 9, 2862–2874.

29.Shichao Du, Zhiyu Ren,* Jun Wu, Wang Xi, and Honggang Fu*. Verticalα-FeOOH nanowires grown on the carbon fiber paper as a free-standing electrode for sensitive H₂O2 detection, Nano Res., 2016, 9, 2260–2269.

30.Jun Wu, Zhiyu Ren,* Shichao Du, Lingjun Kong, Bowen Liu, Wang Xi, Jiaqing Zhu, and Honggang Fu*. A highly active oxygen evolution electrocatalyst: Ultrathin CoNi double hydroxide/CoO nanosheets synthesized via interface-directed assembly, Nano Res., 2016, 9, 713–725.

31.Zhicheng Cai, Aiping Wu, Haijing Yan, Yinglu Xiao, Congfang Chen, Chungui Tian,* Lei Wang, Ruihong Wang and Honggang Fu*, Hierarchical whisker-on-sheet NiCoP with adjustable surface structure for efficient hydrogen evolution reaction,Nanoscale, 2018, 10, 7619–7629.

32.Kan Kan, Lei Wang*, Peng Yu, baojiang jiang, Keying Shi, Honggang Fu*. 2D quasi-ordered nitrogen-enriched porous carbon nanohybrids for high energy density supercapacitors, Nanoscale, 2016, 8, 10166–10176.