王喜龍,河南周口人,教授,博士生導師,國家自然科學基金青年科學基金B類項目獲得者(原國家優青),入選國家級海外引才專項計劃,中國石油大學(北京)優秀青年學者。目前為研究生院專業學位辦副主任(掛職)、能源與催化工程系黨支部書記,獲中國石油和化學工業聯合會科技進步三等獎(排名:1/5)、中國石油和化學工業聯合會首屆可持續發展青年創新獎(排名:1/1)、中華環保聯合會自然科學二等獎(排名:2/5)、山東化學化工學會自然科學一等獎(排名:3/6)、山東循環經濟協會科學技術二等獎(排名:2/6)。主持國家自然科學基金青年科學基金B類、國家級海外引才專項、國家自然科學基金青年科學基金、校優秀青年學者基金、校學科前沿交叉探索專項、重質油全國重點實驗室自主研究等項目;已發表SCI學術論文80余篇,其中以第一/通訊作者身份在J. Catal.(13篇)、AIChE J.(2篇)、ACS Catal.(2篇)、Appl. Catal. B(2篇)、Chem. Eng. Sci.、Chem. Eng. J.(5篇)、Ind. Eng. Chem. Res.(3篇)、Fuel Process. Technol.、Fuel(5篇)等能源化工期刊發表SCI論文70余篇;授權發明專利 3 項,申請發明專利6項。現任《eScience》青年編委、《Energy & Environmental Materials》青年編委、《Petroleum Science》青年編委、《Carbon and Hydrogen》青年編委和《石油科學通報》執行編委。
郵箱:wxl@cup.edu.cn
【工作經歷】
2022.12–至今 教授,化學工程與環境學院,中國石油大學(北京)
2019.08–2022.09 博士后研究員,阿卜杜拉國王科技大學,沙特阿拉伯,合作導師: Kuo-Wei Huang教授
【教育背景】
2016.09–2019.07 博士, 化學工程與技術,中國石油大學(北京),
導師:徐春明 院士 段愛軍 教授
2013.09–2016.07 碩士,化學工程,中國石油大學(北京),
導師: 徐春明 院士 段愛軍 教授
2009.09–2013.07 學士,化學工程與工藝,中國石油大學(北京)
【研究方向】
1)石油及其產品的加氫精制和加氫裂化工藝條件優化及新型催化劑設計
2)廢棄油脂短流程加氫制航空煤油
3)深地化石能源原位加氫降粘提高采收率
4)廢塑料氫解制高值化學品
5)液態儲氫材料的儲放氫
6)二氧化碳加氫制高值化學品
【科研榮譽】
1)2025年,國家自然科學基金青年科學基金B類項目(原國家優青)
2)2023年,國家級海外引才專項計劃
3)2024年,中國石油和化學工業聯合會,科技進步三等獎, (排名:1/5)
4)2024年,中華環保聯合會,自然科學二等獎, (排名:2/5)
5)2023年,山東化學化工學會,自然科學一等獎, (排名:3/6)
6)2023年,山東循環經濟協會,科學技術二等獎, (排名:2/6)
7) 2018年,中國石油和化學工業聯合會,首屆可持續發展青年創新獎, (排名:1/1)
8)中國石油大學(北京)優秀青年學者,2022
9)優秀博士學位論文,中國石油大學 (北京),2020
10)優秀碩士學位論文,中國石油大學 (北京),2016
【代表論文】
以第一/通訊作者身份發表SCI論文70余篇,代表性的30篇論文如下:
1) Jinlin Mei, Zhentao Liu, Zhengkai Cao, Aocheng Wang, Xiaoyang Kong, Aijun Duan, Chunya Wang, Chunming Xu, Xilong Wang*, “Hierarchical catalysts with controllable C-C and C-O bond activation ability for selective hydrogenation of oleic acid” AIChE Journal 2025, e70040.
2) Jinlin Mei, Zhentao Liu, Xiaoyang Kong, Aocheng Wang, Dongze Li, Dong Li*, Yanjun Gong, Xiaochun Zhu*, Chunming Xu, Xilong Wang*, “Hierarchical catalysts with controllable C-C and C-O bond activation ability for selective hydrogenation of oleic acid” Journal of Catalysis 2025, 451, 116375.
3) Zhentao Liu, Jinlin Mei, Xiaoyang Kong, Dongze Li, Yutong Zou, Chunya Wang, Yanjun Gong, Aijun Duan, Chunming Xu, Xilong Wang*, “Revealing the mechanism of selective hydrogenation of oleic acid on bifunctional hierarchical catalysts” Journal of Catalysis 2025, 450, 116274.
4) Xiaoyang Kong, Zhentao Liu, Yutong Zou, Chunya Wang, Chunming Xu, Xilong Wang*, “Revealing the mechanism of selective hydrogenation of oleic acid on bifunctional hierarchical catalysts” Journal of Catalysis 2025, 450, 116331.
5) Y. T. Zou, C. K. Xiao, X. Yang, Y. Z. Wang, X. Y. Kong, Z. T. Liu, C. Y. Wang, A. J. Duan, C. M. Xu, X. L. Wang*, “Flower-like hierarchical TS-1/Al2O3 composite supported NiMo catalysts for efficient hydrodesulfurization of dibenzothiophenes” Journal of Catalysis 2024, 435, 115576.
6) Y. T. Zou, C. K. Xiao, D. Z. Li, A. C. Wang, D. W. Gao, H. Shang, C. Y. Wang, A. J. Duan, C. M. Xu, X. L. Wang*, “Dendritic micro-mesoporous composites via nano-assembly strategy towards high-efficiency catalysts for hydrodesulfurization of dibenzothiophenes.” Journal of Catalysis 2023, 427, 115092.
7) S. Li, C. H. Zhou*, J. S. Hu*, A. J. Duan, C. M. Xu, X. L. Wang*, PdIr nanoparticles on NH2-functionalized dendritic mesoporous silica nanospheres for efficient dehydrogenation of formic acid. Journal of Catalysis, 2023, 426, 153-161.
8) M. H. Alabsi, X. Z. Chen, X. L. Wang*, M. L. Zhang, A. Ramirez, A. J. Duan, C. M. Xu, L. Cavallo, K. -W. Huang*, “Highly dispersed Pd nanoparticles supported on dendritic mesoporous CeZrZnOx for efficient CO2 hydrogenation to methanol.” Journal of Catalysis 2022, 413, 751-761.
9) L. Qi, P. Zheng, Z. Zhao, A. J. Duan, C. M. Xu, X. L. Wang*, “Insights into the intrinsic kinetics for efficient hydrodesulfurization of 4,6-dimethyldibenzothiophene over mesoporous CoMoS2/ZSM-5.” Journal of Catalysis 2022, 408, 279-293.
10) X. L. Wang, C. K. Xiao, P. Zheng, Z. Zhao, M. H. Alabsi, Y. Shi, D. W. Gao, A. J. Duan*, K. -W. Huang*, C. M. Xu*, “Dendritic micro–mesoporous composites with center-radial pores assembled by TS-1 nanocrystals to enhance hydrodesulfurization activity of dibenzothiophene and 4, 6-dimethyldibenzothiophene.” Journal of Catalysis 2020, 384, 136-146.
11) X. L. Wang, J. L. Mei, Z. Zhao, P. Zheng, Z. T. Chen, D. W. Gao, J. Y. Fu, J. Y. Fan, A. J. Duan*, C. M. Xu*, “Self-Assembly of Hierarchically Porous ZSM-5/SBA-16 with Different Morphologies and Its High Isomerization Performance for Hydrodesulfurization of Dibenzothiophene and 4,6-Dimethyldibenzothiophene.” ACS Catalysis 2018, 8, 1891-1902
12) X. L. Wang, Z. Zhao, P. Zheng, Z. T. Chen, A. J. Duan*, C. M. Xu*, J. Q. Jiao, H. L. Zhang, Z. K. Cao, B. H. Ge, “Synthesis of NiMo catalysts supported on mesoporous Al2O3 with different crystal forms and the superior catalytic performance for hydrodesulfurization of dibenzothiophene and 4,6-dimethyldibenzothiophene.” Journal of Catalysis 2016, 344, 680-691.
13) K. Yu, W. M. Kong, Z. Zhao*, A. J. Duan, L. Kong*, X. L. Wang*, “Hydrodesulfurization of dibenzothiophene and 4,6-dimethyldibenzothiophene over NiMo supported on yolk-shell silica catalysts with adjustable shell thickness and yolk size.” Journal of Catalysis 2022, 410, 128-143.
14) Chunhui Zhou, Song Li, Hao Chai, Quan Liu, Jinsong Hu*, Zhentao Liu, Ke Yu, Fei Fan, Wenwu Zhou, Aijun Duan, Chunming Xu, Xilong Wang*, “Immobilizing Pd nanoparticles on amine-functionalized yolk-shell mesoporous silica nanospheres for efficient H2 production from formic acid dehydrogenation.” Applied Catalysis B: Environment and Energy 2024, 346, 123750.
15) Daowei Gao, Shuai Wang, Yipin Lv, Changxu Wang, Jianyu Ren, Peng Zheng*, Lianghao Song, Aijun Duan, Xilong Wang*, Guozhu Chen*, and Chunming Xu, “Unraveling Hydrogenation Kinetic Behavior of Transition Metal Oxides via Decoupling Dihydrogen Dissociation and Substrate Activation.” ACS Catalysis 2024, 14, 1939-1950.
16) Gexian Li, Nan Jiang, Linyu You, Miao Wang, Linfeng Zhang, Jia Guo, Bing Liu, Huadong Wu*, Xilong Wang*, Wenshuai Zhu*, “ZIF-8-derived mesoporous Mo single-atom active sites catalyst for deep oxidative desulfurization.” Applied Catalysis B: Environment and Energy 2026, 380, 125805.
17) Xiaoyang Kong, Yuyang Li, Zhentao Liu, Yutong Zou, Dongze Li, Jixing Liu, Wei Wang, Chunya Wang, Chunming Xu, Xilong Wang*, “Pore-Structure Engineering of Hierarchical Ni/Y Catalysts for the Enhanced Selective Hydrocracking of Naphthalene to BTX” ACS Sustainable Chemistry & Engineering 2025, 13, 8817-8828.
18) J. Lei, Z. Li*, C. P. Wang, H. Y. Yao*, X. L. Wang*, J. S. Hu*, “Nanocage confined nitrogen-rich MOF-derived Co/CoN heterostructure for overall water splitting.” Chemical Engineering Science 2024, 293, 120068.
19) X. L. Wang*, M. H. Alabsi, X. Z. Chen, A. J. Duan, C. M. Xu, K. -W. Huang*, “CO2 hydrogenation to methanol over PdZn catalysts on bimetallic modified dendritic mesoporous silica nanospheres.” Chemical Engineering Journal 2023, 476, 146596.
20) Zhentao Liu, Enhua Wang, Jinlin Mei, Aocheng Wang, Yutong Zou, Chunya Wang*, Hui Shang, Yanjun Gong, Aijun Duan, Chunming Xu, Xilong Wang*, “Hierarchical porous Pt/Hβ catalyst with controllable acidity for efficient hydrogenation of naphthalene.” Chemical Engineering Journal 2024, 481, 148763.
21) Dongze Li, Chengkun Xiao, Yutong Zou, Liang Qiao, Chunhui Zhou*, Aijun Duan, Chunya Wang*, Chunming Xu, Xilong Wang*, “Novel titanium silicon micro-mesoporous composites via nano-assembly strategy for efficient hydrodesulfurization of dibenzothiophene” Chemical Engineering Journal 2024, 494, 152938.
22) C. K. Xiao, S. T. Song, Y. T. Zou, E. H. Wang, A. C. Wang, Y. D. Song, J. Liu, A. J. yeyeDuan*, P. Zheng*, X. L. Wang*. "Facile synthesis of few-layer MoS2 nanosheets with different morphologies supported on Al-TUD-1 for efficient hydrodesulfurization of dibenzothiophene and 4, 6-dimethyldibenzothiophene." Chemical Engineering Journal 2021, 425, 131416.
23) X. L. Wang, C. K. Xiao, M. H. Alabsi, P. Zheng, Z. K. Cao, J. Li Mei, Y. Shi, A. J. Duan*, D. W. Gao*, K. -W. Huang*, C. M. Xu*, "Pt-confinement catalyst with Dendritic hierarchical pores on Excellent Sulfur-resistance for Hydrodesulfurization of Dibenzothiophene and 4, 6-Dimethyldibenzothiophene." Green Energy & Environment 2022, 7, 324-333.
24) X. L. Wang*, M. H. Alabsi, P. Zheng*, J. L. Mei, A. Ramirez, A. J. Duan, C. M. Xu, K. -W. Huang*, “PdCu supported on dendritic mesoporous CexZr1-xO2 as superior catalysts to boost CO2 hydrogenation to methanol.” Journal of Colloid and Interface Science 2022, 611, 739-751.
25) Chunhui Zhou, Rongmei Zhang, Jinsong Hu*, Changguang Yao*, Zhentao Liu, Aijun Duan, X. L. Wang*, “Ultrasmall Pd nanoparticles supported on a metal–organic framework DUT-67-PZDC for enhanced formic acid dehydrogenation.” Journal of Colloid and Interface Science 2024, 673, 997-1006.
26) C. K. Xiao, Y. T. Zou, D. Z. Li, E. H. Wang, A. C. Wang, D. W. Gao, A. J. Duan, P. Zheng*, X. L. Wang*, “Optimization of dendritic TS-1/Silica micro–mesoporous composites for efficient hydrodesulfurization of dibenzothiophene and 4,6-dimethyldibenzothiophene.” Petroleum Science 2023, 20, 2521-2530.
27) J. L. Mei, Y. Shi, C. K. Xiao, A. C. Wang, A. J. Duan*, X. L. Wang*. “Hierarchically porous Beta/SBA-16 with different silica-alumina ratios and the hydrodesulfurization performances of DBT and 4,6-DMDBT” Petroleum Science 2022, 19, 375-386.
28) X. L. Wang, J. L. Mei, Z. Zhao, Z. T. Chen, P. Zheng, J. Y. Fu, H. D. Li, J. Y. Fan, A. J. Duan*, C. M. Xu*, “Controllable Synthesis of Spherical Al-SBA-16 Mesoporous Materials with Different Crystal Sizes and Its High Isomerization Performance for Hydrodesulfurization of Dibenzothiophene and 4,6-Dimethyldibenzothiophene.” Industrial & Engineering Chemistry Research 2018, 57, 2498-2507.
29) X. L. Wang, J. L. Mei, Z. Zhao, P. Zheng, Z. T. Chen, J. M. Li, J. Y. Fan, A. J. Duan*, C. M. Xu*, “Restrictive Diffusion in the Hydrodesulfurization over Ni-MoS2/Al2O3 with different crystal forms.” Industrial & Engineering Chemistry Research 2017, 56, 10018-10027.
30) S. T. Song, T. S. Li, Y. N. Ju, Y. Li, Z. W. Lv, P. Zheng, A. J. Duan*, P. Wu*, X. L. Wang*, “Lanthanum/Gallium-Modified Zn/ZSM-5 Zeolite for Efficient Isomerization/Aromatization of FCC Light Gasoline.” Industrial & Engineering Chemistry Research 2022, 61, 9667-9677.
【社會兼職】
《eScience》青年編委
《Carbon and Hydrogen》青年編委
《Energy & Environmental Materials》青年編委
《Petroleum Science》青年編委
《石油科學通報》執行編委
