于吉红

 

  中国科学院院士

  发展中国家科学院院士

  欧洲科学院外籍院士

  吉林大学无机合成与制备化学国家重点实验室教授

  苏州大学材料化学与化工学部名誉主任

  苏州大学化学科学国际合作创新中心主任

 

  电话: (+86) 431-85168608

     Email:jihong@jlu.edu.cn



学术兼职和学术荣誉:

Journal of the American Chemical Society (JACS)执行主编,《高等学校化学学报》(中文刊)Chemical Research in Chinese Universities(英文刊)两刊主编,Materials Horizons, Materials Chemistry Frontiers, National Science Review, ACS Nano, ACS Central Science, ACS Materials Letters, Inorganic Chemistry, Chem, Matter等国际期刊编委/顾问编委,中国化学会副理事长、中国化学会分子筛专业委员会主任等。获得国家自然科学二等奖2(分别为第一和第二完成人),获得国际纯粹与应用化学联合会(IUPAC)化学化工杰出女性奖,全国模范教师荣誉称号等。


教育和工作经历:

1985.09-1989.06           吉林大学化学系学士
1989.09-1992.06           吉林大学化学系硕士
1992.09-1995.06           吉林大学化学系博士
1995.12-1996.12           吉林大学化学系,讲师

1996.04-1996.07           日本东北大学物理系,访问学者

1996.07-1997.06           香港科技大学化学系,博士后

1997.07-1998.09           日本东北大学物理系,日本科学技术振兴事业团战略基础研究推进事业项目研究员

1997.01-1998.12           吉林大学化学系,副教授

1999.01-至今                 吉林大学化学学院,教授

2001.01-至今                 吉林大学化学学院,博士生导师

2002.01-2005.12           国家杰出青年基金获得者

2004.05-2004.08           瑞典斯德哥尔摩大学化学系,客座教授

2011.01-2015.08            国家重点基础研究发展计划项目(973)首席科学家

2015.12-至今                 中国科学院院士

2016.11-至今                  发展中国家科学院院士

2019.07-至今                  欧洲科学院外籍院士


学术方向:

分子筛纳米孔材料的设计合成及其在能源、环境和新兴领域的应用

具有规则纳米孔道的分子筛是一类工业上极为重要的多相催化材料、吸附分离材料及载体材料。于吉红教授长期从事分子筛纳米孔材料的分子工程学研究,研究兴趣主要包括:分子筛材料的定向设计与合成,包括分子筛新结构的开拓,新合成路线的开发,合成机理的研究,特定聚集态分子筛材料的制备;高效分子筛及金属@分子筛复合催化材料的制备与催化性能研究(C1转化、丙烷脱氢、烯烃环氧化、汽车尾气脱硝、生物质转化等);多孔膜/块体材料用于环境治理及能源存储与转化(CO2吸附、油水分离,电池等);分子筛基主客体复合功能材料的制备及其在先进材料领域的应用。


学术成果

迄今,与合作者在Science, Nat. Commun., JACS, Angew Chem. Int. Ed., Sci. Adv., Adv. Mater., Chem等期刊发表360余篇论文,获授权专利27项。主编著作4部,合作出版著作3部。(ORCID:  0000-0003-1615-5034


代表性论文

1. Wang, J. Y.; Liu, P. S.; Boronat, M.*; Ferri, P.; Xu, Z. G.; Liu, P.; Shen, B. J.; Wang, Z. D.; Yu, J. H.*, “Organic-free synthesis of high silica zeolite Y via a combined strategy of in situ hydroxyl radical assistance and post-synthesis treatment”, Angewandte Chemie International Edition,2020, 59, 17225-17228.

 

2. Sun, Q. M.; Wang, N.; Xu, Q.; Yu, J. H.*, “Nanopore-supported metal nanocatalysts for efficient hydrogen generation from liquid-phase chemical hydrogen storage materials”, Advanced Materials, 2020, 2001818.

 

3. Zhang, Q.; Yu, J. H.*; Corma, A.*, “Applications of zeolites to C1 chemistry: recent advances, challenges, and opportunities”, Advanced Materials, 2020,2002927.

 

4.Li, M. L.; Wang, X. X.; Li, F.; Zheng, L. J.; Xu, J. J.*; Yu, J. H.*, “A bifunctional photo-assisted Li-O2 battery based on a hierarchical heterostructured cathode”, Advanced Materials, 2020, 1907098.

 

5. Zhang, H. Y.; Wang, B. L.; Yu, X. W.; Li, J. Y.*; Shang, J.; Yu, J. H.*, “Carbon dots in porous materials: host-guest synergy for enhanced performance”, Angewandte Chemie International Edition,2020, DOI: 10.1002/anie.202006545.

 

6. Bai, P.; Dong, Z. Y.; Wang, S.; Wang, X. Y.; Li, Y.; Wang, Y. Z.; Ma, Y. H.; Yan, W. F.*; Zou, X. D.; Yu, J. H.*, “A layered cationic aluminum oxyhydroxide emerging as a new type of highly efficient and selective trap for heavy metal oxyanions”, Angewandte Chemie International Edition,2020, DOI: 10.1002/anie.202005878.

 

7. Zhang, H. Y.; Liu, K. K.; Liu, J. C.; Wang, B. L.; Li, C. Y.; Song, W.; Li, J. Y.*; Huang, L.; Yu, J. H.*, “Carbon dots-in-zeolite via in-situ solvent-free thermal crystallization: achieving high-efficiency and ultralong afterglow dual emission”, CCS Chemistry, 2020, 2, 118-127.

 

8. Sun, Q. M.; Wang, N.; Fan, Q. Y.; Zeng, L.; Mayoral, A.; Miao, S.; Yang, R. O.; Jiang, Z.; Zhou, W.; Zhang, J. C.; Zhang, T. J.; Xu, J.; Zhang, P.; Cheng, J.;  Yang, D. -C.; Jia, R.; Li, L.; Zhang, Q. H.; Wang, Y.*; Terasaki, O.; Yu, J. H.*, “Subnanometer bimetallic platinum-zinc clusters in zeolites for propane dehydrogenation”, Angewandte Chemie International Edition,2020, DOI: 10.1002/anie.202003349.

 

9. Bao, S. X.; Li, J. Y.; Guan, B. Y.; Jia, M. J.* Terasaki, O.;Yu, J. H.*, “A green selective water etching approach to metal-organic framework@mesoporous SiO2 yolk-shell nanoreactors with enhanced catalytic stabilities”, Matter, 2020, 3, 1-11.

 

10. Sun, Q. M.; Wang, N.; Zhang, T. J.; Bai, R. S.; Mayoral, A.*; Zhang, P.; Zhang, Q. H.; Terasaki, O.; Yu, J. H.*, “Zeolite-encaged single-atom Rh catalysis: highly-efficient hydrogen generation and shape-selective tandem hydrogenation of nitroarenes”, Angewandte Chemie International Edition,2019, 58, 18570-18576.

 

11. Qiao, Y.; Wang, Q. F.; Mu, X. W.; Deng, H.; He, P.; Yu, J. H.*; Zhou, H. S.*, “Advanced hybrid electrolyte Li-O2 battery realized by dual superlyophobic membrane”, Joule, 2019, 3, 1-16.

 

12. Wang, B. L.; Yu, Y.; Zhang, H. Y.; Xuan, Y. Z.; Chen, G. R.; Ma, W. Y.; Li, J. Y.*; Yu, J. H.*, “CDs-in-matrix: energy transfer enhanced red room temperature phosphorescence”, Angewandte Chemie International Edition, 2019, 58, 18443-18448.

 

13. Wang, N.; Sun, Q. M.; Yu, J. H.*, “Ultrasmall metal nanoparticles confined within crystalline nanoporous materials: a fascinating class of nanocatalysts”, Advanced Materials, 2019, 31, 1803966.

 

14. Wang, S.; Bai, P.; Sun, M. Z.; Liu, W.; Li, D. D.; Wu, W. Z.; Yan, W. F.; Shang, J.*; Yu, J. H.*, Fabricating mechanically robust binder-free structured zeolites by 3D printing coupled with zeolite soldering strategy: a superior configuration for CO2 capture”,Advanced Science, 2019,6, 1901317.

 

15. Zhang, Q.; Mayoral, A.; Terasaki, O.; Zhang, Q.; Ma, B.; Zhao, C.; Yang, G.J.; Yu, J. H.*, “Amino Acid-assisted construction of single-crystalline hierarchical nanozeolites via oriented-aggregation and intraparticle ripening”, Journal of the American Chemical Society,2019, 141, 3772-3776.

 

16. Sun, Q. M.; Wang, N.; Bai, R. S.; Hui, Y.; Zhang,T. J.; Do, D. A.; Zhang, P.; Song, L. J.; Miao, S.; Yu, J. H.*, “Synergetic effect of ultrasmall metal clusters and zeolites promoting hydrogen generation”, Advanced Science, 2019, 6, 1802350.

 

17. Bai, R. S.; Song, Y.; Li, Y.; Yu, J. H.*, “Creating hierarchical pores in zeolite catalysts”,Trends in Chemistry, 2019, 1, 601-611.

 

18. Wang, B. L.; Mu, Y.; Zhang, H. Y.; Shi, H. Z.; Chen, G. R.; Yu, Y.; Yang, Z. Q.; Li, J. Y.*; Yu, J. H.*,“Red room-temperature phosphorescence of CDs@Zeolite composites triggered by heteroatoms in zeolite frameworks”, ACS Central Science, 2019, 5, 349-356.

 

19. Feng, G. D.; Wang, J. Y.; Boronat, M.; Li, Y.; Su, J. H.; Huang, J.; Ma, Y. H.; Yu, J. H.*, “Radical-facilitated green synthesis of highly ordered mesoporous silica materials”,Journal of the American Chemical Society,2018, 140, 4770-4773.

 

20. Li, Y.; Li, L.; Yu, J. H.*, “Applications of zeolites in sustainable chemistry”,Chem,2017, 3, 928-949.

 

21. Sun, Q. M.; Wang, N.; Bing, Q. M.; Si, R.; Liu, J. Y.; Bai, R. S.; Zhang, P.; Jia, M. J., Yu, J. H.*, “Subnanometric hybrid Pd-M(OH)2, M= Ni, Co, clusters in zeolites as highly efficient nanocatalysts for hydrogen generation”, Chem, 2017, 3, 477-493.

 

22. Wang, Y.; Di, J. C.; Wang, L.; Li, X.; Wang, N.; Wang, B. X.; Tian, Y.*; Jiang, L.*; Yu, J. H.*, “Infused-liquid-switchable porous nanofibrous membranes for multiphase liquid separation”, Nature Communications, 2017, 8, 575.

 

23. Liu, J. C.; Wang, N.; Yu, Y.; Yan, Y.; Zhang, H. Y.; Li, J. Y. *; Yu, J. H. *, “Carbon dots in zeolites: A new class of thermally activated delayed fluorescence materials with ultralong lifetimes”, Science Advances, 2017, 3, e1603171.

 

24. Wang, N.; Sun, Q. M.; Bai, R. S., Li, X.; Guo, G. Q. Yu, J. H.*, “In situ confinement of ultra-small Pd clusters within nanosized silicalite-1 zeolite for high-efficient hydrogen generation catalysis”, Journal of the American Chemical Society,2016, 138, 7484-7487.

 

25. Feng, G. D.; Cheng, P.; Yan, W. F.; Boronat M.; Li, X.; Su, J. H.; Wang, J. Y.; Li, Y.; Corma, A.; Xu, R. R.; Yu, J. H.*, “Accelerated crystallization of zeolites via hydroxyl free radicals”, Science, 2016, 351, 1188-1191.