教育经历:
2019. 4‒2022. 3,日本国立富山大学,工学博士
2015. 9‒2018. 6,宁夏大学,工学硕士
2011. 9‒2015. 6,沈阳化工大学,工学学士
工作经历:
2022.04-2022.12,日本国立富山大学,研究助理
2023.03-2024.11,宁夏大学材料与新能源学院,讲师
2024.12-至今,宁夏大学材料与新能源学院,副教授
研究领域:
先进催化材料与绿色合成,二氧化碳/乙醇催化转化制高附加值化学品,分子筛合成与新反应体系开发
讲授课程:
本科生:物理化学,新型催化材料
研究生:先进功能材料
主要学术兼职:
兼任Chinese Chemical Letters、Rare Metals、Advanced Powder Materials青年编委,《燃料化学学报》学术编辑,担任ACS Catalysis、Energy Conversion and Management、Applied Catalysis B: Environmental等期刊审稿人。
荣誉与奖励:
日本理工学教育部博士课程优秀毕业生,日本文部省博士课程奖学金,朝日国际教育财团奖学金,中国发明协会发明创新一等奖,省优秀毕业生,优秀毕业生党员,市优秀大学生,宁夏自然科学论文三等奖,大学生创新创业计划优秀指导教师。
学术成果:
[项目信息]:
校企合作项目,2024.06‒2029.05,主持
宁夏重点研发计划(引才专项),2024.01‒2026.12,主持
宁夏自然科学基金,2024.10‒2026.09,主持
[发明专利]:
1.一种用于直接CO2加氢制乙醇的催化剂及其制备方法、应用,授权发明专利,ZL202310444307.X(第一发明人)
2.一种用于含盐有机废水处理的催化剂及其制备方法、应用,授权发明专利,ZL202311322007.0(第一发明人)
3.一种多级孔纳米胶囊催化剂及其制备方法和转化制丁二烯的方法,授权发明专利,ZL202410669331.8(第一发明人)
4.一种肌酸有机高盐废水的资源化利用方法,授权发明专利,ZL202411208162.4(第一发明人)
[代表性论文]:
1.K. Wang, H. Oe, Y. Nakaji, Y. Wang*, T. Nakaji-Hirabayashi*, N. Tsubaki*, Carbon-neutral butadiene rubber from CO2, Chem 2024, 419-426.
2. K. Wang*, Z. Li, T. Liu, W. Gao, T. Yang, K. Liu, X. Gao, Q. Ma, J. Zhang*, T. Zhao, N. Tsubaki*, Boosting long-chain linear α‑olefins synthesis from CO2 hydrogenation over K-FeMn catalyst via stabilizing active sites, ACS Catal. 2024, 14, 17469-17479.
3.K. Wang, C. Chen, W. Gao*, N. Liu, C. Wang, F. Wang, J. Fan, Y. Gu, C. Zhu, N. Tsubaki*, Green and rapid synthesis of hierarchical nano-sized pure Si-Beta zeolite supported with Zn and Y for effective synthesis of butadiene from aqueous ethanol, Chem. Eng. J. 2024, 479, 147780.
4.W. Gao, Y. Shi*, K. Wang*, L. Zhang, G. Liu, J. Wu, J. Sui, Q. Liu, T. Li, T. Xing, Y. Gu, G. Yang, Y. He, S. Yasuda, P. Zhang, Z. Jin, Z. Huang, N. Tsubaki*, Highly selective synthesis isoparaffins from CO2 hydrogenation over ZSM-5@ZnCr reverse capsule catalyst, Adv. Funct. Mater. 2025, Accept.
5.T. Liu, K. Wang*, Z. Liu, H. Feng, C. Liu, H. Song, D. Liang, T. Yang, K. Liu, X. Gao, J. Zhang, N. Tsubaki, FeZr-Fe5C2 interfacial boosts the synthesis of linear α-olefin from CO2 hydrogenation via enhanced CO adsorption, AIChE J. 2025, e70051.
6.Y. Shi, W. Gao*, K. Wang*, L. Zhang, H. Feng, X. Guo, Y. He, X. Feng, Q. Liu, T. Li, Y. Pan, Q. Ma, N. Tsubaki*, Direct conversion of CO2 to light aromatics by composite ZrCr-C/ZSM-5 catalyst, Appl. Catal. B-Environ. 2024, 353, 124068.
7.K. Wang, W. Gao, F. Chen, G. Liu, J. Wu, N. Liu, Y. Kawabata, X. Guo, Y. He*, P. Zhang*, G. Yang, N. Tsubaki*, Hierarchical nano-sized ZnZr-Silicalite-1 multifunctional catalyst for selective conversion of ethanol to butadiene, Appl. Catal. B-Environ. 2022, 301, 120822.
8.Z. Liu, W. Song, P. Zhang, J. Liang*, C. Wang, C. Liu, H. Song, B. Chen, K. Wang*, G. Liu, X. Guo, Y. He, X. Gao, J. Zhang, G. Yang, N. Tsubaki*, Unveiling the role of cobalt in the product regulation for CO2 hydrogenation to light olefins over alumina-supported Co-Fe catalysts, Chem. Sci. 2025, 16, 14140-14151.
9.X. Wang, Y. Man, R. Zhang, C. Cui*, K. Wang*, Z. Wang*, Insights into selectivity modulation for CO2 hydrogenation over Na-NiLa(BDC) catalysts: The role of frustrated Lewis pairs, Chem. Eng. J. 2025, 505, 159458.
10.W. Song, K. Wang*, Z. Liu, X. Jiang, B. Wang, B. Chen, P. Zhang, D. Liang, K. Liu, X. Gao*, J. Zhang*, N. Tsubaki*, Unveiling the synergistic mechanism of the Cu-Al2O3 interface driving efficient low-temperature activation of CO2, Chem. Eng. J. 2025, doi.org/10.1016/j.cej.2025.167593.