王意波,男,1995年生,河南洛阳人。博士,讲师,硕士生导师。长期(自2018年以来)从事电解水催化剂性能调控的相关科学研究工作,在催化剂设计、可控合成、结构表征、机理、膜电极研究等方面具有丰富经验。至今,在Chem、Nature Communications、Angwante Chemie International Edition、ACS Sustainable Chemistry&Engineering、Nano Research等国内外期刊上累计发表论文20余篇。
Ø 教育及工作经历
2014.09-2018.07 郑州大学化学专业学士;
2018.09-2023.12 中国科学院长春应用化学研究所物理化学专业博士;
2023.12-今 辽宁工业大学讲师。
Ø 研究方向
1. 电解水材料的制备、表征及机理研究;
2. 膜电极的制备、表征及器件性能衰退研究;
3. 新一代化学电源。
Ø 科研课题
1. 国家重点研发计划项目 可离网型风/光/氢燃料电池直流互联与稳定控制技术——微网条件下氢能综合利用与氢电混合储能技术 2020-2023年 参与;
2. 校博士启动项目 MOF热解的Co基析氧催化剂及其机理研究 2024-2025年 主持。
Ø 代表性论文及专利
1. Yibo Wang, Rongpeng Ma, Zhaoping Shi, Hongxiang Wu, Shuai Hou, Ying Wang*, Changpeng Liu, Junjie Ge*, and Wei Xing*. Inverse doping IrOx/Ti with weakened Ir-O interaction toward stable and efficient acidic oxygen evolution. Chem, 9 (2023): 1-12.
2. Yibo Wang#, Shuai Hou#, Rongpeng Ma, Jiadong Jiang, Zhaoping Shi, Changpeng Liu, Junjie Ge*, and Wei Xing*. Modulating crystallinity and surface electronic structure of IrO2 via gadolinium doping to promote acidic oxygen evolution. ACS Sustainable Chemistry & Engineering, 9 (2021): 10710-10716.
3. Yibo Wang#, Jiadong Jiang#, Zhaoping Shi, Hongxiang Wu, Jiahao Yang, Pengbo Wang, Shuai Hou, Meiling Xiao, Junjie Ge*, Changpeng Liu* and Wei Xing*. Stabilizing highly-efficiency iridium single atoms via lattice confinement for acidic oxygen evolution. Nano Research, 17(2024): 2492-2498.
4. Yao Xiao#, Yibo Wang#, Meiling Xiao, Changpeng Liu, Shuai Hou*, Junjie Ge*, Wei Xing*. Regulating the pore structure and oxygen vacancies of cobaltosic oxide hollow dodecahedra for an enhanced oxygen evolution reaction. NPG Asia Materials, 12 (2020): 73.
5. Hongxiang Wu#, Yibo Wang#, Zhaoping Shi, Xue Wang, Jiahao Yang, Meiling Xiao*, Junjie Ge*, Wei Xing*. Changpeng Liu*. Recent developments of Iridium-based catalysts for oxygen evolution reaction in acidic water electrolysis. Journal of Materials Chemistry A, 10 (2022): 13170-13189.
6. Hongxiang Wu, Yibo Wang, Zhaoping Shi, Dongchen Han, Jiahao Yang, Pengbo Wang, Jing Ni, Meiling Xiao*, Changpeng Liu*, and Wei Xing*. Improving the lattice oxygen reactivity of rutile IrO2 via partial Sn substitution for acidic water oxidation. The Journal of Physical Chemistry C, 127 (2023): 12541-12547.
7. Zhaoping Shi, Ji Li, YiboWang, Shiwei Liu, Jianbing Zhu, JiahaoYang, Xian Wang, Jing Ni, Zheng Jiang, Lijuan Zhang, Ying Wang*, Changpeng Liu, Wei Xing*, and Junjie Ge*. Customized reaction route for ruthenium oxide towards stabilized water oxidation in high-performance PEM electrolyzers. Nature Communications, 14 (2023): 843.
8. Jing Ni, Zhaoping Shi, Yibo Wang, Jiahao Yang, Hongxiang Wu, Pengbo Wang, Kai Li, Meiling Xiao, Changpeng Liu, Wei Xing. Suppressing the lattice oxygen diffusion via high-entropy oxide construction towards stabilized acidic water oxidation. Nano Research, 17(2024), 1107-1113.
9. Zhaoping Shi#, Ji Li#, Jiadong Jiang#, Yibo Wang, Xian Wang, Yang Li, Liting Yang, Yuyi Chu, Jingsen Bai, Jiahao Yang, Jing Ni, Ying Wang*, Lijuan Zhang, Zheng Jiang*, Changpeng Liu, Junjie Ge*, and Wei Xing*. Enhanced acidic water oxidation by dynamic migration of oxygen species at the Ir/Nb2O5-x catalyst/support interfaces. Angewandte Chemie International Edition, 61 (2022): e202212341.
10. Shuai Hou*, Jiadong Jiang, Yibo Wang, Xiwen He, Junjie Ge*, and Wei Xing*. High-Performance RuOx Catalyst with Advanced Mesoporous Structure for Oxygen Evolution Reaction. Langmuir, 38 (2022): 12118−12123.
11. Zhaoping Shi, Ying Wang, Ji Li, Xian Wang, Yibo Wang, Yang Li, Weilin Xu, Zheng Jiang, Changpeng Liu, Wei Xing, and Junjie Ge*. Confined Ir single sites with triggered lattice oxygen redox: Toward boosted and sustained water oxidation catalysis. Joule, 5 (2021): 2164-2176.
12. 邢巍;王意波;葛君杰;苏怡;刘长鹏;李晨阳;梁亮;金钊;刘世伟;侯帅;施兆平;原子级分散的铱基复合材料的制备方法及其应用;2023-12-19,中国,CN202210054331.8, (发明专利)
Ø 研究生招生
本课题组招收对新能源材料、膜电极、新一代化学电源具有浓厚兴趣,具备较好动手能力和创新精神的研究生。此外,学生应具有材料或化学方面的专业背景。
