王树元,男,理学博士。于2020年毕业于中国科学院山西煤炭化学研究所/中科合成油技术股份有限公司。从事煤化工、石油化工、天然气化工方面的研究,在费托合成、油品加工(芳构化、异构化、催化裂化等)及分子筛(KL, ZSM-5, ZSM-22, Beta等)合成方面具有一定的研究基础及工业开发经验。
先后主持山东省自然科学基金面上项目1项、山东省济南市“新高校20条”项目1项,山东省重点实验室开放课题1项,校(院)人才科研项目1项。在国内外重要学术期刊上发表论文25篇,均被SCI/EI收录,授权国家发明专利6项。
一、主持项目
1. 原子级精细调控直链烷烃重整Pt负载型催化剂及反应机理研究,山东省自然科学基金面上项目,ZR2021MB046,2022.01-2024.12,10万元,在研,主持;
2. 煤基高附加值芳烃化学品制备关键技术,济南市"新高校20条"项目,120万元,在研,主持;
3. 校(院)人才科研项目,分子筛限域纳米PtSn团簇的合成及在直链烷脱氢芳构中的应用,2023RCKY167,2023.8-2024.7,22.1万元,在研,主持;
4. 构筑高效稳定Pt基分子筛催化剂及其石脑油重整反应机理研究,山东省重点实验室开放课题,BG-KFX-03,2022.9-2023.8,10万元,在研,主持;
二、近年代表论著
[1] 魏丽, 王树元, 闫梦霞, 朱地, 陶智超, 徐丹, 原子层沉积技术调控分子筛基催化剂研究进展, 燃料化学学报, 2023, 51: 1.
[2] 高亚, 徐丹, 王树元, 朱地, 原子层沉积构建高性能催化剂的研究进展, 化工进展, 2021, 40: 4242-4252.
[3] Wang, S., Gao, Y., Wei, L., Yan, M., Yi, F., Wang, J., Wang, L., liu, G., Song, A., Li, Y., Cai, F., Zhu, D., Xu, D., Li, Y., Engineering spatial locations of Pt in hierarchically porous KL zeolite by atomic layer deposition with enhanced n-heptane aromatization, Fuel, 2023, 337: 126852.
[4] Xu, D., Wei, L., Yan, M., Yi, F., Zhao, G., Jia, A., Zhu, D., Wang, S.*, Li, Y., Zinc-assisted nanometric Pt cluster stabilized on KL zeolite via atomic layer deposition for the n-heptane aromatization, Appl. Catal. A, 2023, 663: 119308.
[5] Yin, J., Wang, S., Xu, D., You, Y., Liu, X., Peng, Q., Surface modification of Fe5C2 by binding silica-based ligand: A theoretical explanation of enhanced C2 oxygenate selectivity, Molecular Catalysis, 2023, 547: 113333.
[6] Zhou, Z., Wang, F., Yan, T., Wan, H., Yao, R., Zhang, K., Liu, Y., Wang, S., Xu, D., Hou, H., He, P., Li, Y., Cao, Z., Boosting the epoxidation of long-chain linear α-olefins via bimetallic CoIr composite, Fuel, 2022, 326: 125050.
[7] Yan, M., Xu, D., Wang, S.*, Wu, B., Yang, Y., Li, Y., Selective regulation of Pt clusters inside KY zeolite using atomic layer deposition for n-octane reforming, Fuel, 2022, 330: 125671.
[8] Wang, S., Gao, Y., Yi, F., Yan, M., Zhu, D., Xu, D., Li, Y., Regulation of sub-nanometric platinum on BaKL zeolite for boosting n-heptane aromatization, Fuel, 2022, 328: 125281.
[9] Xu, D., Yin, J.Q., Gao, Y., Zhu, D., Wang, S.Y.*, Atomic-Scale Designing of Zeolite Based Catalysts by Atomic Layer Deposition, ChemPhysChem, 2021, 22: 1287-1301.
[10] Yin, J.Q., Liu, X.C., Liu, X.W., Wang, H., Wan, H.L., Wang, S.Y., Zhang, W., Zhou, X., Teng, B.T., Yang, Y., Li, Y.W., Cao, Z., Wen, X.D., Theoretical exploration of intrinsic facet-dependent CH4 and C2 formation on Fe5C2 particle, Appl. Catal. B, 2020, 278: 119308-119316.
[11] Wang, S.Y., Xu, D., Zhu, D., Zhao, B.F., Guan, H.B., Qin, Y., Wu, B.S., Yang, Y., Li, Y.W., Elucidating the restructuring-induced highly active bimetallic Pt-Co/KL catalyst for the aromatization of n-heptane, Chem. Commun., 2020, 56: 892-895.
[12] Wang, S.Y., Xu, D., Chen, Y.L., Zhou, S., Zhu, D., Wen, X.D., Yang, Y., Li, Y.W., Hydrodeoxygenation of anisole to benzene over an Fe2P catalyst by a direct deoxygenation pathway, Catal. Sci. Technol., 2020, 10: 3015-3023.
[13] Xu, D., Wang, S.Y., Wu, B.S., Zhang, B., Qin, Y., Huo, C.F., Huang, L.H., Wen, X.D., Yang, Y., Li, Y.W., Highly Dispersed Single-Atom Pt and Pt Clusters in the Fe-Modified KL Zeolite with Enhanced Selectivity for n-Heptane Aromatization, ACS Appl. Mater. Interfaces, 2019, 11: 29858-29867.
[14] Wang, S.Y., Xu, D., Zhao, J.J., Zheng, W.T., Hu, C.X., Wen, X.D., Yang, Y., Li, Y.W., Investigation of the effects of phosphorus on the selective hydrodeoxygenation of anisole over an Fe/SiO2 catalyst, Catal. Sci. Technol., 2019, 9: 5712-5724.
[15] Xu, D., Wang, S.Y., Wu, B.S., Huo, C.F., Qin, Y., Zhang, B., Yin, J.Q., Huang, L.H., Wen, X.D., Yang, Y., Li, Y.W., Tailoring Pt locations in KL zeolite by improved atomic layer deposition for excellent performance in n-heptane aromatization, J. Catal., 2018, 365: 163-173.
[16] Xu, D., Wu, B.S., Ren, P.J., Wang, S.Y., Huo, C.F., Zhang, B., Guo, W.P., Huang, L.H., Wen, X.D., Qin, Y., Yang, Y., Li, Y.W., Controllable deposition of Pt nanoparticles into a KL zeolite by atomic layer deposition for highly efficient reforming of n-heptane to aromatics, Catal. Sci. Technol., 2017, 7: 1342-1350.
三、专利
1. 一种两段法原位制备金属磷化物材料的方法及其专用设备系统,ZL201811183061.0
2. 一种KL分子筛负载单原子Pt与PtxFe团簇结构催化剂的制备方法及应用,ZL201811080537.8
3. 一种纳米级KL分子筛负载金属催化剂、制备方法和应用,ZL202110559598.8;
4. 一种形貌可控KL分子筛的合成方法及应用,ZL202111137770.7;
5. 一种调控分子筛孔径尺寸的方法,202120418312.X;
6. 一种Zn调控Pt/KL分子筛催化剂及其制备方法和应用,ZL202210789686.1;
7. 铂基正构链烷烃芳化催化剂的制备方法与应用,202010564426.5;
8. 一种多级孔分子筛负载金属催化剂及其调控方法和应用,202110431917.7;
9. 一种用于测定膜分离氦效率的装置,ZL202120418312.X;
10. 基于稳定碳同位素在线监测生物质掺烧比系统及分析方法,202010718905.8;
四、科技奖励
分布式能源系统协调控制关键技术装备创新及应用,全国商业科技进步奖(三等),2021.12.17
五、联系方式
Phone:+86-531-85599049 Fax:+86-531-82961954
E-mail: sywang@qlu.edu.cn; syw.fe@outlook.com
Website:https://www.researchgate.net/profile/Shuyuan-Wang-3
业务科:0531-82605584 人事科:0531-82605876 办公室:0531-82605557
能源研究所地址:山东省济南市历下区科院路19号
能动学院地址:山东省济南市长清区大学路3501号
