林伟研究员，副院长

学历：博士研究生

毕业专业：物理化学

招生专业：化学工艺、材料工程

电话：010-82368088

邮箱：linwei.ripp@sinopec.com

简历介绍

林伟，男，理学博士，研究员，博士生导师。2000年和2005年在北京大学分别获得学士和博士学位；2005年受聘到中石化石油化工科学研究院有限公司工作至今。聚焦于清洁油品、氢能技术及绿色碳科学技术开发，十四五国家重点研发计划能源领域重点专项指南编制专家，先后承担国家和省部级项目10余项，获得省部级科技进步一等奖6项，中国专利优秀奖1项，以通讯作者发表Science、EES等高水平文章100余篇，授权国内外发明专利200余件，2013荣获“第十三届中国青年科技奖”。

研究方向

主要研究方向为氢能及氧化碳高效转化技术开发，围绕能源相关的催化反应进行，着力于发展光、电、热催化体系及高储氢密度材料，聚焦可再生能源制氢耦合二氧化碳高效转化技术开发和储氢、燃料电池一体化发电系统研发。

代表论著

(1)Ma C, Zhang Z, Zhang M, Tian X, Lin C, Han L, Li G, Lo BT, Yung KF, Song H, Lin W*. Accelerated discovery of  stable, extra-large-pore nano zeolites with micro-electron diffraction. Science. 2025;388(6754):1417-21.

(2)Yang Song, Xue Yang* and Wei Lin*. Engineering lr-Based Catalysts for High Current Density Applications in Proton  Exchange Membrane Water Electrolyzers. Energy & Environmental Science, 2025;18(1):130-54.

(3)Jiaye Li, Xu Tian, Changle Yue, Han Guo, Zhidong Wang, Mengdi Guo, Siying Huang, Yang Song,Wei Lin*, Yichuan Li,  Bin Liu*, and Yuan Pan*,Rare-metal single atom catalysts for large scale hydrogen production under actual operating  conditions. EES Catalysis, 2024.

(4)Shangcong Sun, BoPeng, Ye Song, Bing Liu, Haitao Song,Wei Lin*. Boosting photoelectron transfer by Fermi and doping  levels regulation in carbon nitride towards efficient solar-driven hydrogen production[J]. Chemical Engineering  Journal, 2024, 495: 153547.

(5)Hongwu Chen, Zhifang Liu, Hua Zhou, Xue Yang* and Wei Lin*. Screening potential anodic chemistry in lieu of the  oxygen evolution reaction in electrolysis systems: the road to practical application. Energy & Environmental Science,  16(12), 5771-5791.2023.

(6)Xue Yang, Xianrui Gu, Yang Song, Guolin Hou, Cheng Wang, Lichen Liu, Wei Lin*. Carbon-based supports for the  electrocatalysis under industrially relevant conditions. Science China Chemistry, 67(4), 1051-1055.2024.

(7)Shangcong Sun, Bo Peng, Ye Song, Ruoyu Wang, Haitao Song, and Wei Lin*. Engineering Z-scheme FeOOH/PCN with fast  photoelectron transfer and surface redox kinetics for efficient solar-driven CO2 reduction. ACS Applied Materials &  Interfaces, 15(10), 12957-12966.2023.

(8)Lixi Wang, Bo Peng , Aiguo Zheng, Ye Song, Peng Wang, Haitao Song, Wei Lin*, Mingyuan He. Mechanistic origin of  transition metal modification on ZSM-5 zeolite for the ethylene yield enhancement from the primary products of  n-octane cracking. Journal of Catalysis, 2022.

(9)Xiaohua Deng, Xianrui Gu, Yingjie Deng, Zhu Jiang, Wenxuan Chen, Dai Dang,*, Wei Lin*, Bin Chi*. Boosting the  activity and stability via Co nanoparticles and MoC synergistic catalysis to construct a bifunctional electrocatalyst  for high-performance and long-life rechargeable zinc-air batteries. Nanoscale. 2022.

(10)Ruoyu Wang, Xue Yang, Ye Song, Jihong Zhou, Qiuqiao Jiang, Zhenbo Wang, Lei Wang, Bo Peng, Haitao Song, Wei Lin*.  Self-CombustionDepolymerization Approach to Activate Solid-Waste Coal Gangue Minerals for Fluid Catalytic Cracking  Catalyst Synthesis. ACS Sustainable Chemistry & Engineering. 2022.

(11)Houpeng Wang, Zhaoxiang Xu, Wei Lin*, Xue Yang, Xianrui Gu, Wei Zhu*, and Zhongbin Zhuang. Improving the water  electrolysis performance by manipulating the generated nano/micro-bubbles using surfactants. Nano Research. 2022.

(12)Wei Lin*, Ye Song, Lei Han, Xue Yang, Jun Liu, Bo Peng. Dehydrogenative aromatization of 1-octene over  multifunctional Ni/ZSM-5-P-Fe catalyst. Fuel. 2021, 299, 120890.

(13)Bo Peng, Kang Zou, Ye Song, Mudi Xin, Xue Yang, Wei Lin*. Development of Ni/ZnO desulfurization adsorbent with  high stability: Formation of Zn2SiO4 and the impact from substrate. Chemical Engineering Journal. 2021, 409, 127374.

(14)Ye Song, Bo Peng, Xue Yang, Qiuqiao Jiang, Jun Liu, Wei Lin*. Trail of Sulfur during the Desulfurization via  Reactive Adsorption on Ni/ZnO. Green Energy & Environment. 2020, 6(4): 597-606.

(15)Ye Song, Wei Lin*, Xingcui Guo, Linlin Dong, Xindong Mu*, Huiping Tian, Lei Wang. Aromatization and isomerization  of methylcyclohexane over Ni catalysts supported on different supports. Green Energy & Environment. 2019, 4, 75-82.