王树元-凯发k8ag旗舰厅

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人才建设

王树元

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)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,zr2021mb0462022.01-2024.1210万元,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"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,2023rcky1672023.8-2024.722.1万元,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-032022.9-2023.810万元,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ptptxfe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、凯发k8ag旗舰厅的联系方式

phone 86-531-85599049   fax 86-531-82961954

e-mail: sywang@qlu.edu.cn; syw.fe@outlook.com

websitehttps://www.researchgate.net/profile/shuyuan-wang-3

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