张晋, 男, 1994年12月出生, 山西长治人,理学博士, 从事光催化加氢,不饱和基团的选择性加氢,以及CO2的选择性加氢研究。
教育经历:
2017.9-2023.1, 中国科学院山西煤炭化学研究所, 硕博连读,物理化学专业,获得理学博士学位;
2013.9–2017.7, 山西大同大学, 化学专业, 获得理学学士学位。
工作经历:
2023.2-至今,山西科技学院化学工程学院 教学科研工作;
主持或参加科研项目:
1 国家自然科学基金面上项目(21773284):活性炭固载Cu(Ⅱ)可见光催化氢氨化反应研究(参与)
2 国家自然科学基金面上项目(22072176):LDH表面微结构调控Ru单原子光催化加氢选择性的研究(参与)
代表性论文:
(1) Jin Zhang, Mengting Gao, Ruiyi Wang*, Xincheng Li, Tianfen Huang, Jin Wang, Yunwei Wang*, Zhanfeng Zheng*, Switching of CO2 hydrogenation selectivity via chlorine poisoning over Ru/TiO2 catalyst, Nano Research. DOI: 10.1007/s12274-022-5260-z. (一区top)
(2) Jin Zhang, Mengting Gao, Ruiyi Wang*, Xincheng Li, Pengqi Zhu, Yunwei Wang*, Zhanfeng Zheng*, Photocatalytic selective hydrogenation of α, β-unsaturated aldehydes over oxygen vacancies enriched layered double hydroxide supported Co3O4 nanoparticles photocatalyst, Fuel. 2022, 330, 125589. (一区top)
(3) Jin Zhang, Mengting Gao, Pengqi Zhu, Yunwei Wang*, Ruiyi Wang*, Zhanfeng Zheng*, Oxygen vacancy regulated selective hydrogenation of α, β-unsaturated aldehydes over LDH surface group coordinated transition metal photocatalysts, Catalysis Science & Technology. 2022, 12, 6163-6173. (二区)
(4) Jin Zhang, Linjuan Pei, Jie Wang, Pengqi Zhu*, Xianmo Gu*, Zhanfeng Zheng*, Differences in the selective reduction mechanism of 4-nitroacetophenone catalysed by rutile- and anatase-supported ruthenium catalysts, Catalysis Science & Technology. 2020, 10, 1518-1528. (二区)
(5) Mengting Gao1, Jin Zhang1, Pengqi Zhu, Xingchen Liu*, Zhanfeng Zheng*, Unveiling the origin of alkali metal promotion in CO2 methanation over Ru/ZrO2, Applied Catalysis B: Environmental. 2022, 121, 121476. (一区top,共同一作)
(6) Jin Zhang, Mengting Gao, Ruiyi Wang*, Xincheng Li, Jin Wang, Tianfen Huang, Yunwei Wang*, Jian Zhao*, Zhanfeng Zheng*. Active site-transfer of NiW photocatalyst through lattice strain design for alkynes semi-hydrogenation. (在投)
(7) Tianfen Huang1, Jin Zhang1, Ruiyi Wang*, Hui Ge, Jun Ren*, Zhanfeng Zheng *, Cyano group modified graphitic carbon nitride supported Ru nanoparticles for enhanced CO2 methanation, Chemical Engineering Journal. (一区top,共同一作,大修中)
(8) Tianfen Huang1, Jin Zhang1, Ruiyi Wang*, Xincheng Li, Jing Wang, Hui Ge, Jun Ren, Yunwei Wang*, Zhanfeng Zheng. Switchable tuning selectivity of CO2 hydrogenation via anions modification over Ru/TiO2 catalyst, Chinese Chemical Letters,(一区top,共同一作,审稿中)
(9) Ruiyi Wang, Kuan Lu, Jin Zhang, Xincheng Li, Zhanfeng Zheng*. Regulation of the Co–Nx Active Sites of MOF-Templated Co@NC Catalysts via Au Doping for Boosting Oxidative Esterification of Alcohols. ACS Catalysis, 2022, 12, 14290-14303.
(10) Pengqi Zhu, Mengting Gao, Jin Zhang, Zhiwei Wu, Ruiyi Wang*, Yunwei Wang, Eric R. Waclawik*, Zhanfeng Zheng*. Synergistic interaction between Ru and MgAl-LDH support for efficient hydrogen transfer reduction of carbonyl compounds under visible light. Applied Catalysis B: Environmental, 2021, 283: 119640.
(11) Jie Wang, Xianmo Gu*, Linjuan Pei, Peng Kong, Jin Zhang, Xiaoyu Wang, Ruiyi Wang, Eric R. Waclawikc*, Zhanfeng Zheng*. Strong metal-support interaction induced O2 activation over Au/MNb2O6 (M = Zn2+, Ni2+ and Co2+) for efficient photocatalytic benzyl alcohol oxidative esterification. Applied Catalysis B: Environmental, 2021, 283: 119628.
(12) Pengqi Zhu, Xichen Sun, Yunwei Wang*, Jin Zhang, Xianmo Gu*, Zhanfeng Zheng*. Multifunctional oxygen vacancies in WO3-x for catalytic alkylation of C-H by alcohols under red-light. Journal of Catalysis, 2021, 402: 208-217.
(13) Pengqi Zhu, Yunwei Wang*, Xichen Sun, Jin Zhang, Eric R. Waclawik, Zhanfeng Zheng*. Photocatalytic‐controlled olefin isomerization over WO3-x using low-energy photons up to 625 nm. Chinese Journal of Catalysis, 2021, 42: 1641-1647.
(14) Mengting Gao, Hao Tan, Pengqi Zhu, Jin Zhang, Hao Wang*, Xingchen Liu*, Zhanfeng Zheng*. Why phenol is selectively hydrogenated to cyclohexanol on Ru (0001): An experimental and theoretical study. Applied Surface Science, 2021, 558: 149880.
(15) Pengqi Zhu, Jin Zhang, Jie Wang, Peng Kong, Yunwei Wang*, Zhanfeng Zheng*. Photocatalytic selective aerobic oxidation of amines to nitriles over Ru/γ-Al2O3: the role of the support surface and the strong imine intermediate adsorption. Catalysis Science & Technology. 2020, 10: 440-449.