研究员、博导，高潞公司CTO，聚焦碳中和，开展CH4/CO2等分子的光/热/电/磁催化基础和应用研究，主持的国家重大研发计划等项目经费超1亿元，完成全球首套干重整工业示范，发表SCI论文50余篇，专利30余项，完成1.9亿元专利转化。

1.CH4/CO2/H2O等分子的清洁资源化利用
2.光/热/电/催化转化制备高值化学品的应用基础研究
3.C-H键与C-O键的活化与耦合机制研究

1.明珠工程师 2023
2.第十七届中国国际工业博览会银奖 2015
3.干重整技术获得上海市第一批绿色技术认证 2023
4.干重整技术获得中国石化联合会化工园区绿色技术认证 2023

1. 科技部重大专项，热分解耦合催化还原催化剂设计及反应机理， 2023-2027年， 545 万。
2. 科技部重大专项，CH4/CO2重整制合成气的关键纳米催化技术及工业示范， 2016-2020年， 900 万。
3. 基金委面上基金，等离子体辅助氮化铝水解可控构筑镍基核壳结构及甲烷干重整催化行为研究， 2023-2027，50万
4. 企业横向项目，CO2甲烷重整制合成气， 2011-2016，经费1200万。
5. 企业横向项目，甲烷氧化偶联制C2烃联产合成气技术研发，2022-2024，经费400万。
6. 企业横向项目，美国墨西哥湾沿海地区的天然气重整技术开发，2020-2023，经费400万。
7. 企业横向项目，新一代甲烷干重整技术研发， 2018-2024，经费1800万。
8. 企业横向项目，干重整催化剂升级研发和高压验证，2022-2023，经费278万。
9. 企业横向项目，催化剂升级研发，2021-2022，经费300万。
10. 中国科学院先导(A), CO2大规模重整制合成气的关键技术和工业示范，2013-2017，2900万

1. Local coordination environment triggers key Ni-O-Si copolymerization on silicalite-2 for dry reforming of methane. Yidan Zhang, Shuqing Li,*, Yu Fu b, Lei Zheng, Hongyu Li, Wenbo Kong, Bingrong Pan,Jiong Li, Jun Zhang,*, Yuhan Sun*, Applied Catalysis B: Environment ａｎｄ Energy 350 (2024) 123903
2 The investigation of oxygen species ｉｎ silicalite-1 supported MnOx-Na2WO4 catalyst towards efficient oxidative coupling of methane Yujie Wang a, Wenbo Kong *, Yu Fu, Lei Zheng, Bingrong Pan, He Zhu, Shuqing Li, Jiong Li , Jun Zhang ,*, Yuhan Sun ,*Journal of Environmental Chemical Engineering 12 (2024) 112757
3. Defects influence photocatalytic NOCM product selectivity by controlling photogenerative carriers. Ning Zhang, Yu Fu,*, Wenbo Kong, Bingrong Pan, Changkun Yuan a, Shuqing Li, He Zhu , Jun Zhang ,* Journal of Environmental Chemical Engineering 11 (2023) 110665
4. Investigation of Atom-Level Reaction Kinetics of Carbon-Resistant Bimetallic NiCo-Reforming Catalysts: Combining Microkinetic Modeling ａｎｄ Density Functional Theory. Wang, Jiyang; Fu, Yu; Kong, Wenbo1; Li, Shuqing1; Yuan, Changkun; Bai, Jieru; Chen, Xia; Zhang, Jun*; Sun, Yuhan*.ACS Catal. 2022, 12, 4382?4393
5. A highly active ａｎｄ stable Pd/MoC catalyst for hydrogen production from methanol decomposition.Fufeng Cai, Yanjiao Guo b , Jessica Juweriah Ibrahim , Jun Zhang *, Yuhan Sun. Applied Catalysis B: Environmental 299 (2021) 120648
6. Ｉｎ situ redispersion of rhodium nanocatalyst for CO2 reforming of CH4. Yu Fu* , Wenbo Kong , Bingrong Pan , Changkun Yuan , Shuqing Li , He Zhu , Jun Zhang*. Journal of Environmental Chemical Engineering, 9 (2021) 105790
7. Nickel nanoparticles with interfacial confinement mimic noble metal catalyst ｉｎ methane dry reforming. Wenbo Kong, YuFu, Lei Shi, Shenggang Li, Evgeny Vovk, Xiaohong Zhou, Rui Si, Bingrong Pan, ChangkunYuan, ShuqingLi, FufengCai, He Zhu, JunZhang*, Yo ng Yang*, Yuhan Sun*. APPL CATAL B-ENVIRON, Volume 285 , 2021, 119837. https://doi.org/10.1016/j.apcatb.2020.119837
8. Design of a carbon-resistant Ni@S-2 reforming catalyst controllable Ni nanoparticles sandwiched ｉｎ a peasecod-ｌｉｋｅ structure. JiyangWang, Yu Fu, Wenbo Kong, Feikai Jin, JieruBai, Jun Zhang*, Yuhan Sun*.  Applied Catalysis B: Environmental 282 (2021) 119546.
9. Anti-sintering non-stoichiometric nickel ferrite for highly efficient ａｎｄ thermal-stable thermochemical CO2 splitting. Jincheng Huang, Yu Fu, Yonghui Zhao, Jun Zhang*, Shuqing Li, Shenggang Li, GuijunLi , Zhenpan Chen, Yuhan Sun*. Chem. Eng. J., Volume 404, 15 January 2021, 127067. https://doi.org/10.1016/j.cej.2020.127067
10. Dually confined Ni nanoparticles by room-temperature degradation of AlN for dry reforming of methane. Shuqing Li, Yu Fu, Wenbo Kong, Bingrong Pan, Changkun Yuan, Fufeng Cai, He Zhu, Jun Zhang*, Yuhan Sun*. APPL CATAL B-ENVIRON, Volume 277, 15 November 2020, 118921. https://doi.org/10.1016/j.apcatb.2020.118921.
11. Low-temperature hydrogen production from methanol steam reforming on Zn-modified Pt/MoC catalysts. Fufeng Cai, Jessica Juweriah Ibrahim, Yu Fu, Wenbo Kong, Jun Zhang*, Yuhan Sun*. APPL CATAL B-ENVIRON, Volume 264, 5 May 2020, 118500.https://doi.org/ 10.1016/j.apcatb.2019.118500.