研究员,博士生导师,高潞空气科技有限公司技术负责人,总工程师。入选明珠工程师。聚焦国家碳中和战略和能源绿色低碳转型升级的重大需求,以CH4/CO2/H2O等分子的清洁资源化利用为方向,进行光/热/电/催化转化制备高值化学品的应用技术研究。承担国家重大研发计划、国家自然科学基金、中国科学院先导(A)等项目10余项,研发经费超过1亿元,在ACS Catal.,Appl. Cata. B等期刊发表SCI论文60余篇,中国发明专利50余项,5项专利完成转化,价值1.91亿元。作为技术负责人完成全球首套10000Nm3/h级别干重整示范,成立高潞空气化工产品(上海)绿色科技有限公司,注册资金4.1亿元。
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. 浦东新区明珠计划(明珠工程师),2023
2. 中国科学院特聘技术攻坚骨干,2023
3. 第十七届中国国际工业博览会银奖 2015
4. 中国国际经济技术合作促进会特聘专家,2024
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
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1.The role of aluminum in atomically dispersed M(Fe, Co, Ni, Cu)/ZSM-5 catalysts for methane selective oxidation, X. Chen, L. Bai, S. Li, J. Li, Y. Fu, J. Zhang, Applied Surface Science (2025),doi: https://doi.org/10.1016/j.apsusc.2025.163533 2.Speciation evolution of iron species within ZSM-5 for selective methane oxidation: from redispersion to activation Xia Chen, Shuqing Li, Lu Bai,, Jiong Li,, Yu Fu *,and Jun Zhang *. J. Mater. Chem. A DOI: https://doi.org/10.1039/d5ta00587f 3.Interface engineering of Ni and CeO2 catalysts for ethane dry reforming,Xinglong Chen Shuqing Li , Zhenchao Xu, Hongyu Li , Jiong Li , Yu Fu * ,Jun Zhang * , International Journal of Hydrogen Energy 103 (2025) 501–512 4.Volumetric internal Joule heating of a catalyst packed SiSiC foam for efficient dry reforming of methane, L. Zheng, D. Wang, Y. Jiang, Y. Ren, Y. Wu, Y. Fu, J. Zhang Chemical Engineering Journal (2024), doi:https://doi.org/10.1016/j.cej.2024.158291 5.Dual-Functional NiMg2_xCaxAl-Hydrotalcite for Integrated CO2 Capture and In Situ Methanation Zhuoyu Guo, Changkun Yuan, Lei Zheng, Yu Fu, Yunfei Gao,* Jun Zhang,*and Yuhan Sun* Energy Technol. 2024, 2400235 6.Solvothermal Preparation of Oxygen-Vacancy-Rich Nano-ZnO for Electrocatalytic CO2 Reduction in a Flow Cell. Yihai Wu, Lei Zheng, Yu Fu, Changkun Yuan, Wenbo Kong, Shuqing Li, He Zhu, Bingrong Pan, and Jun Zhang* ACS Appl. Eng. Mater. 2024, 2, 1306−1314 7.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 8.Propane dehydrogenation over zinc-on-zirconia catalyst via atom trapping,Qixiang Liu, Yihai Wu, He Zhu, Lei Zheng, Jiong Li, Yu Fu *, Jun Zhang, *, Yuhan Sun*, International Journal of Hydrogen Energy 66 (2024) 562–570 10.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 11.Design of Ni-substituted La 2 (CeZrNi) 2 O 7 Pyrochlore Catalysts for Methane Dry Reforming Jieru Bai, Jun Zhang,* Yuhan Sun*. ChemNanoMat 2022, 8, e202100422 . 12.Tuning strong metal-support interactions to boost activity and stability of aluminium nitride supported nickel catalysts for dry reforming of methane.Shuqing Li,, Yu Fu, Jun Zhang*, Yuhan Sun* . Fuel 343 (2023) 127918 13.Boron-promoted Ni/MgO catalysts for enhanced activity and coke suppression during dry reforming of methane[J]. Yu Fu* , Wenbo Kong, Bingrong Pan, Changkun Yuan, Shuqing Li, He Zhu, Jun Zhang * Journal of the Energy Institute, 2022, 105: 214-220. 15.The effect of oxygen vacancy of alkaline-earth metal Sr doped Sm2Zr2O7catalysts in the oxidative coupling of methane. Jie Hao, Fufeng Cai, Jiyang Wang, Yu Fu , Jun Zhang, * , Yuhan Sun, * Chemical Physics Letters 771 (2021) 138562 17.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 18.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 19.Methanol steam reforming over ZnPt/MoC catalysts: Effffects of hydrogen treatment. Fufeng Cai*, Jessica Juweriah Ibrahim, Yu Fu, Wenbo Kong, Shuqing Li, Jun Zhang*, Yuhan Sun. Ind. Eng. Chem. Res., 2020, 59, 18756−18770 20.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. |
