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  • Professor Jihong Yu

    Professor of Chemistry

    Director of International Center of Future Science, Jilin University

    Academician of Chinese Academy of Sciences

    Foreign Member of Academia Europaea

    Academician of TWAS

    Foreign member of the Royal Swedish Academy of Sciences 
    Executive  Editor of Journal of the American Chemical Society
    Vice President of Chinese Chemical Society (CCS)

    Chair of the Chinese Zeolite Association (CZA)

    State Key Laboratory of Inorganic Synthesis and Preparative Chemistry, College of Chemistry, Jilin University
    Address: 2699 Qianjian Street, Changchun 130012, China
    Tel & fax: (+86) 431-85168608
    Email: jihong@jlu.edu.cn
    Website:
    http://melab.jlu.edu.cn

       

    Prof. Jihong Yu is from the State Key Laboratory of Inorganic Synthesis and Preparative Chemistry, Jilin University, and is the director of International Center of Future Science, Jilin University.
    Her main research interest is in the designed synthesis and application of zeolitic nanoporous materials in energy, environment and other emerging fields. She has co-authored over 370 research papers including Science, Nat. Commun., Sci. Adv., Chem, JACS, Angew Chem. Int. Ed., etc.; obtained 30 authorized Chinese Invention Patents; co-published 7 books. She was the winners of the National Prize for Natural Science, and the IUPAC 2017 Distinguished Women in Chemistry/Chemical Engineering Award. She was the Associate Editor of Chemical Science (2012-2020), and joined the JACS as an Executive Editor in 2021. She also serves as the Editor-in-Chief of Chemical Research in Chinese Universities, and Editorial/Advisory Board Members of Accounts of Chemical Research, Advanced Materials, JACS-Au, Chem, Matter, Materials Horizons, Materials Chemistry Frontiers, National Science Review, Accounts of Materials Research, ACS Nano, ACS Central Science, ACS Materials Letters, Inorganic Chemistry, Aggregate, etc. She is the Vice President of Chinese Chemical Society, the Chair of Chinese Zeolite Association.

       

    Education
    1995  Ph.D., Inorganic Chemistry, Department of Chemistry, Jilin University
    1992  M.S., Inorganic Chemistry, Department of Chemistry, Jilin University
    1989  B.S., Inorganic Chemistry, Department of Chemistry, Jilin University

       

    Positions
    2016-                  Director of Center of Future Science, Jilin University
    2007-2010         Cheung Kung Professorship, Ministry of Education of China
    1999-present     Professor, Department of Chemistry, Jilin University
    1997-1998         Associate Professor, Department of Chemistry, Jilin University
    1995-1996         Assistant Professor, Department of Chemistry, Jilin University
    05-08/2004        Guest Professor, Department of Chemistry, Stockholm University, Stockholm, Sweden
    1997-1998         CREST Foreign Researcher, Physics Department, Tohoku University, Sendai, Japan
    1996-1997         Postdoctoral Fellow, Department of Chemistry, The Hong Kong University of Science and Technology, Hongkong

       

    Professional Membership

    Fellow of Chinese Chemical Society (CCS) (2020-)

    Senior Fellow of Hong Kong Institute for Advanced Study(2020-)

    Foreign Member of Academia Europaea (2019-)

    Fellow of The World Academy of Sciences (TWAS) (2016-)

    Member of Chinese Academy of Sciences (CAS) (2015-)

    Fellow of Royal Chemical Society (FRSC) (2014-)

    Vice President of Chinese Chemical Society (CCS) (2019-)

    Chair of the Chinese Zeolite Association (CZA) (2018-)

    Secretary of Council of International Zeolite Association (2013-2017)

    Council Member of International Zeolite Association (2013-2019)


    Honors

    2019  National Exemplary Teacher

    2017  IUPAC Distinguished Women in Chemistry/Chemical Engineering Award

    2014  National Key Talent Project, Young and Middle Aged Experts with Outstanding Contributions

    2013  National High-Level Talents Special Support Plan

    2012  National Prize for Natural Science (II)

    2012  Science & Technology Innovation Team Award for Young and Middle-aged Talents of Jilin Province

    2011  Special government allowances of the State Council, P. R. C.

    2010  The Bau Family Award in Inorganic Chemistry for World Chinese Inorganic Chemists

    2009  The 6th China Young Female Scientists Award (an extension of the UNESCO for Women in Science Awards)

    2008  National Natural Science Award (I) of Jilin Province

    2007  The 10th China Youth Science and Technology Award

    2007  National Prize for Natural Science (II)

    2003  The 6th China Youth Science and Technology Innovation Award

    2002  The 7th Jilin Province Youth Science and Technology Award

    2000  The Teaching and Research Award Program for Outstanding Young Teachers in Higher Education Institutions of MOE, China

       

    Professional Service

    Executive Editor of Journal of the American Chemical Society (2021-)

    Advisory Board Member of eScience (2020.12-)

    Advisory Board Member of JACS Au (2020.11-)

    Advisory Board Member of Advanced Materials (2020.11-)

    Advisory Board Member of Aggregate (2020.10-)

    Advisory Board Member of Accounts of Chemical Research (2021-2023)

    Associate Editor of Chemical Science (RSC) (2012-2020)

    Advisory Board Member of ACS Nano (2020-)

    Editor-in-Chief of Chemical Research in Chinese Universities (2019-)

    Editor-in-Chief of Chemical Journal of Chinese Universities (2019-)

    Advisory Board Member of Matter (2019-)

    Advisory Board Member of ACS Materials Letters (2019-)

    Advisory Board Member of Chem (2019-)

    Advisory Board Member of Inorganic Chemistry (2019-)

    Advisory Board Member of Inorganic ACS Central Science (2019-)

    Editorial Board Member of EnergyChem (2018-)

    Editorial Board Member of National Science Review (2017-)

    Advisory Board Member of Materials Horizon (2017-)

    Editorial Board Member of Materials Chemistry Frontiers (2016-)

    Associate Editor of Chemical Science (2012-)

    Vice President of Chinese Chemical Society (CCS) (2019-)

    Deputy Director of Committee of Women Chemists of Chinese Chemical Association (CAS) (2019-)

    Vice President of Science Specialty Committee of China Higher Education Society (2019-)

    Chair of Chinese Zeolite Association (CZA) (2018-)

    7th Expert Advisory Committee Member of the Department of Chemical Science, National Natural Science Foundation of China (2017-)

    Vice President of Committee of Women Chemists of Chinese Chemical Society (CCS) (2016-)

    Committee Member of the Jilin Provincial Association for Science and Technology (2012-)


    Research Areas

    Inorganic synthesis; nanoscience; solid state chemistry   


    Research Interest

    Designed synthesis of zeolitic nanoporous materials and their applications in energy, environment and other emerging fields, involving the following aspects:

    1. zeolite synthesis: synthesis of new zeolites; developing new synthetic strategies; mechanistic studies; synthesis of nano and hierarchical zeolites; preparation of zeolite-encaged metal nanocatalysts;

    2. catalysis: application of zeolite and metal@zeolite catalysts in various industrially and environmentally important catalytic reactions;

    3 .separation: application of zeolite-based membranes in gas separation and liquid separation;

    4. energy storage: development of zeolite membranes as practical solid electrolytes in solid-state batteries;

    5. host-guest assembly: utilization of zeolites as host matrices to confine guest species, affording unprecedented optical, electronic or magnetic properties.

       

    Publications
    Coauthored over 370 papers in international journals, including Science, Chem. Rev., Acc. Chem. Res.,Chem. Soc. Rev., J. Am. Chem. Soc., Angew. Chem. Int. Ed., Nat. Commun., Science Adv., Chem., Adv. Mater., etc., 7 books, and 30 authorized patents. (ORCID: 0000-0003-1615-5034).


    Selected Publications

    1.Zhang, T. J.; Walsh, A. G.; Yu, J. H.*; Zhang, P.*, “Single-atom alloy catalysts: structural analysis, electronic properties and catalytic activities”, Chemical Society Reviews, 2021, DOI: 10.1039/d0cs00844c.

    2.Sun, C.; Liu, Z. Q.; Wang, S.; Pang, H.; Bai, R. S.; Wang, Q. F.; Chen, W.; Zheng, A. M.*; Yan, W. F.*; Yu, J. H.*, “Anion tuning of zeolite crystallization”, CCS Chemistry, 2020, DOI: 10.31635/ccschem.020.202000558.

    3.Sun, Q. M.; Chen, B. W. J.; Wang, N.; He, Q.; Chang, A.; Yang, C.-M.; Asakura, H.; Tanaka, T.; Hülsey, M. J.; Wang, C.-H.; Yu, J. H.*; Yan, N.*, “Zeolite-encaged Pd-Mn nanocatalysts for CO2 hydrogenation and formic acid dehydrogenation”, Angewandte Chemie International Edition, 59(2020), 20183-20191.

    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.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, 59(2020), 17225-17228.

    6.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, 32(2020), 2001818.

    7.Zhang, Q.; Yu, J. H.*; Corma, A.*, “Applications of zeolites to C1 chemistry: recent advances, challenges, and opportunities”, Advanced Materials, 32(2020), 2002927.

    8.Yu, J. H.*; Corma, A.*; Li, Y.*, “Functional porous materials chemistry”, Advanced Materials, 32(2020), 2006277.

    9.Qiao, G.-Y.; Yuan, S.; Pang, J. D.; Rao, H.; Lollar, C. T.; Dang, D. B.; Qin, J.-S.*; Zhou, H.-C.*; Yu, J. H.*, “Functionalization of zirconium-based metal-organic layers with tailored pore environments for heterogeneous catalysis”, Angewandte Chemie International Edition, 59(2020), 18224-18228.

    10.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, 59(2020), 19390-19402.

    11.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, 3(2020), 498-508.

    12.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, 59(2020), 19539-19544.

    13.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 Pt-Zn clusters in zeolites for propane dehydrogenation”, Angewandte Chemie International Edition, 59(2020), 19450-19459.

    14.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, 2(2020), 2280-2297.

    15.Di, J. C.; Li, L.; Wang, Q. F.; Yu, J. H.*, “Porous membranes with special wettabilities: designed fabrication and emerging application”, CCS Chemistry, 2(2020), 118-127.

    16.Xu, W. J.; Zhang, T. J.; Bai, R. S.; Zhang, P.; Yu, J. H.*, “A one-step rapid synthesis of TS-1 zeolites with highly catalytically active mononuclear TiO6 species”, Journal of Materials Chemistry A, 8(2020), 9677-9683.

    17.Zhang, Q.; Xiang, S.; Zhang, Q.; Wang, B. J.; Mayoral, A.; Liu, W. Y.; Wang, Y. Y.; Liu, Y. H.; Shi, J.; Yang, G. J.; Luo, J.; Chen, X. S.*; Terasaki, O.; Gilson, J. -P.; Yu, J. H.*, “Breaking the Si/Al limit of nanosized β zeolites: promoting catalytic production of lactide”, Chemistry of Materials, 32(2020), 751-758.

    18. 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, 58(2019), 18570-18576.

    19. 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.

    20. 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, 58(2019), 18443-18448.

    21. 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, (6)2019,1901317.

    22. Wang, Q.F.; Wang, Y.; Wang, B.X.; Liang, Z.Q.; Di, J.C.*; Yu, J.H.*, “Under-liquid dual superlyophobic nanofibrous polymer membranes achieved by coating thin-film composites: a design principle”, Chemical Science, 10(2019), 6382-6389.

    23. Bai, R.S.; Song, Y.; Li, Y.; Yu, J.H.*, “Creating hierarchical pores in zeolite catalysts”, Trends in Chemistry, 2019, DOI: 10.1016/j.trechm.2019.05.010.

    24. 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,141 (2019), 3772-3776.

    25. 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, (6)2019, 1802350.

    26. 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, 5(2019), 349-356.

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

    28. Sun, Q. M.; Xie, Z. K.; Yu, J. H.*, “The state-of-the-art synthetic strategies for SAPO-34 zeolite catalysts in methanol-to-olefin conversion”, National Science Review, 5(2018), 542-558.

    29. Li, Y.; Cao, H. X.; Yu, J. H.*, “Toward a new era of designed synthesis of nanoporous zeolitic materials”,ACS Nano, 12(2018), 4096-4104.

    30. Zhang, T. J.; Chen, X. X.; Chen, G. R.; Chen, M. Y.; Bai, R. S.; Jia, M. J.; Yu, J. H.*, “Synthesis of anatase-free nano-sized hierarchical TS-1 zeolite and its excellent catalytic performance in alkenes epoxidation”, Journal of Materials Chemistry A, 6(2018), 9473-9479.

    31. Bai, R. S.; Sun, Q. M.; Song, Y.; Wang, N.; Zhang, T. J.; Wang, F.; Zou, Y. C.; Feng, Z. C.; Miao, S.; Yu, J. H.*, “Intermediate-crystallization promoted catalytic activity of titanosilicate zeolites”, Journal of Materials Chemistry A, 6(2018), 8757-8762.

    32. Zhang, Q.; Chen, G. R.; Wang, Y. Y.; Chen, M. Y.; Guo, G. Q.; Shi, J.; Luo, J.; Yu, J. H.*, “High-quality single-crystalline MFI-type nanozeolites: a facile synthetic strategy and MTP catalytic studies”, Chemistry of Materials, 30(2018), 2750-2758.

    33. 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, 140 (2018), 4770-4773.

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

    35. 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., 3(2017), 477-493.

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

    37.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, 3(2017), e1603171.

    38. Du, S. T.; Sun, Q. M.; Wang, N.; Chen, X. X.; Jia, M. J. *; Yu, J. H.*, “Synthesis of hierarchical TS-1 zeolites with abundant and uniform intracrystalline mesopores and their highly efficient catalytic performance for oxidation desulfurization”, Journal of Materials Chemistry A, 5(2017), 7992-7998.

    39. Sun, Q. M.; Wang, N.; Bai, R. S.; Chen, X. X.; Yu, J. H.*, “Seeding induced nano-sized hierarchical SAPO-34 zeolites: cost-effective synthesis and superior MTO performance”, Journal of Materials Chemistry A, 4(2016) , 14978-14982.

    40. Bai, R. S.; Sun, Q. M.; Wang, N.; Zou, Y. C.; Guo, G. Q.; Iborra, S.; Corma, A.; Yu, J. H.*, “Simple quaternary ammonium cations-Templated syntheses of extra-large pore germanosilicate zeolites”, Chemistry of Materials, 2016, 28, 6455-6458.

    41. 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, 138(2016), 7484-7487.

    42. Li, Y.; Yu, J. H.*, “Genetic engineering of inorganic functional modular materials”, Chemical Science, 7(2016), 3472-3481.

    43. 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, 351(2016),1188-1191.

    44. Mu, Y.; Wang, N.; Sun, Z. C.; Wang, J.; Li, J. Y.*; Yu, J. H.*, “Carbogenic nanodots derived from organo-templated zeolites with modulated full-color luminescence”, Chemical Science, 7(2016), 3564-3568.

    45. Li, Y.; Li, X.; Liu, J. C.; Duan, F. Z.; Yu, J. H.*, “In silico prediction and screening of modular crystal structures via a high-throughput genomic approach”, Nature Communications, 6(2015), 8328.

    46. Li, J. Y.; Corma, A.; Yu, J. H.*, “Synthesis of new zeolite structures”, Chemical Society Reviews, 44(2015), 7112-7127.

    47. Weckhuysen, B. M.*; Yu, J. H.*, “Recent advances in zeolite chemistry and catalysis”, Chemical Society Reviews, 44(2015), 7022-7024.

    48. Wu, J. B.; Tao, C. Y.; Li, Y.; Li, J. Y.*; Yu, J. H.*, “Methylviologen-templated zinc gallophosphate zeolitic material with dual photo-/thermochromism and tuneable photovoltaic activity”, Chemical Science, 6(2015), 2922-2927.

    49. Li, D. D.; Zhang, Y. P.; Fan, Z. Y.; Chen, J.; Yu, J. H.*, “Coupling of chromophores with exactly opposite luminescence behaviours in mesostructured organosilicas for high-efficiency multicolour emission”, Chemical Science, 6(2015), 6097-6101.

    50. Sun, Q. M.; Wang, N.; Guo, G. Q.; Chen, X. X.; Yu, J. H.*, “Synthesis of tri-level hierarchical SAPO-34 zeolite with intracrystalline micro–meso–macroporosity showing superior MTO performance”, Journal of Materials Chemistry A, 3(2015), 19783-19789.

    51. Li, Y.; Yu, J. H.*, “New stories of zeolite structures: their descriptions, determinations, predictions, and evaluations”, Chemical Reviews, 114(2014), 7268-7316.

    52. Zhang, Y. P.; Li, D. D.; Li, Y.; Yu, J. H.*, “Solvatochromic AIE luminogens as supersensitive water detectors in organic solvents and highly efficient cyanide chemosensors in water”, Chemical Science, 5(2014), 2710-2716.

    53. Wu, J. B.; Tao, C. Y.; Li, Y.; Yan, Y.; Li, J. Y.*; Yu, J. H.*, “Methylviologen-templated layered bimetal phosphate: a multifunctional X-ray-induced photochromic material”, Chemical Science, 5(2014), 4237-4241.

    54. Sun, Q. M.; Ma, Y. H.; Wang, N.; Li, X.; Xi, D. Y.; Xu, J.; Deng, F.; Yoon, K. B.; Oleynikov, P.; Terasaki, O.; Yu, J. H.*, “High performance nanosheet-like silicoaluminophosphate molecular sieves: synthesis, 3D EDT structural analysis and MTO catalytic studies”, Journal of Materials Chemistry A, 2(2014), 17828-17839.

    55. Xi, D. Y.; Sun, Q. M.; Xu, J.; Cho, M.; Cho, H. S.; Asahina, S.; Li, Y.; Deng, F.; Terasaki, O.; Yu, J. H.*, “In situ growth-etching approach to the preparation of hierarchically macroporous zeolites with high MTO catalytic activity and selectivity”, Journal of Materials Chemistry A, 2(2014), 17994-18004.

    56. Xu, Y.; Li, Y.; Han, Y. D.; Song, X. W.; Yu, J. H.*, “A gallogermanate zeolite with eleven-membered-ring channels”, Angewandte Chemie-International Edition, 52(2013), 5501-5503.

    57. Li, Y.; Yu, J. H.*; Xu, R. R., “Criteria for zeolite frameworks realizable for target synthesis”, Angewandte Chemie-International Edition, 52(2013), 1673-1677.

    58. Wen, Q.; Di, J. C.; Zhao, Y.; Wang, Y.; Jiang, L.; Yu, J. H.*, “Flexible inorganic nanofibrous membranes with hierarchical porosity for efficient water purification”, Chemical Science, 4(2013), 4378-4382.

    59. Wen, Q.; Di, J. C.; Jiang, L.; Yu, J. H.*; Xu, R. R., “Zeolite-coated mesh film for efficient oil-water separation”, Chemical Science, 4(2013), 591-595.

    60. Wang, Z. P.; Yu, J. H.*; Xu, R. R., “Needs and trends in rational synthesis of zeolitic materials”, Chemical Society Reviews, 41(2012), 1729-1741.

    61. Han, Y. D.; Li, Y.; Yu, J. H.;* Xu, R. R., “A gallogermanate zeolite constructed exclusively by three-ring building units”, Angewandte Chemie-International Edition, 50(2011), 3003-3005.

    62. Wang, X.; Li, J. Y.; Han, Y. D.; Li, Y.; Yu, J. H.*; Xu, R. R., “Na8CeSi6O18 and Its Ti-Doped Analogue Na8Ce0.73Ti0.27Si6O18 with Interesting Photovoltaic Properties”, Chemistry of Materials, 23(2011), 2842-2847.

    63. Jiang, J. X.; Jorda, J. L.; Yu, J. H.; Baumes, L. A.; Mugnaioli, E.; Diaz-Cabanas, M. J.; Kolb, U.; Corma, A.*, “Synthesis and Structure Determination of the Hierarchical Meso-Microporous Zeolite ITQ-43”,Science, 333(2011), 1131-1134.

    64. Jiang, J. X.; Xu, Y.; Cheng, P.; Sun, Q. M.; Yu, J. H.*; Corma, A.; Xu, R. R., “Investigation of Extra-Large Pore Zeolite Synthesis by a High-Throughput Approach”, Chemistry of Materials, 23(2011), 4709-4715.

    65. Yu, J. H.*; Xu, R. R., “Rational Approaches toward the Design and Synthesis of Zeolitic Inorganic Open-Framework Materials”, Accounts of Chemical Research, 43(2010), 1195-1204.

    66. Jiang, J. X.; Yu, J. H.; Corma, A.*, “Extra-Large-Pore Zeolites: Bridging the Gap between Micro and Mesoporous Structures”, Angewandte Chemie-International Edition, 49(2010), 3120-3145.

    67. Xing, H. Z.; Yang, W. T.; Su, T.; Li, Y.; Xu, J.; Nakano, T.;* Yu, J. H.*; Xu, R. R., “Ionothermal synthesis of extra-large-pore open-framework nickel phosphite 5H3O·Ni8(HPO3)9Cl3·1.5H2O: Magnetic anisotropy of the antiferromagnetism”, Angewandte Chemie-International Edition, 49(2010), 2328-2331.

    68. Ma, Z.; Yu, J. H.; Dai, S.*, “Preparation of Inorganic Materials Using Ionic Liquids”, Advanced Materials, 22(2010), 261-285.

    69. Song, X. W.; Li, Y.; Gan, L.; Wang, Z. P.; Yu, J. H.*; Xu, R. R., “Heteroatom-stabilized chiral framework of aluminophosphate molecular sieves”, Angewandte Chemie-International Edition, 48(2009), 314-317.

    70. Ren, X. Y.; Li, Y.; Pan, Q. H.; Yu, J. H.*; Xu, R. R.; Xu, Y., “A crystalline germanate with mesoporous 30-ring channels”, Journal of the American Chemical Society, 131(2009), 14128-14129.

    71. Li, Y.; Yu, J. H.*; Xu, R. R.; Baerlocher, C.; McCusker, L. B., “Combining structure modeling and electron microscopy to determine complex zeolite framework structures”, Angewandte Chemie-International Edition, 47(2008), 4401-4405.

    72. Pan, Q. H.; Li, J. Y.; Christensen, K. E.; Bonneau, C.; Ren, X. Y.; Shi, L.; Sun, J. L.; Zou, X. D.*; Li, G. H.; Yu, J. H.*; Xu, R. R., “A germanate built from a 68126 cavity cotemplated by an (H2O)16 cluster and 2-methylpiperazine”, Angewandte Chemie-International Edition, 47(2008), 7868-7871.

    73. Tian, D. Y.; Yan, W. F.; Cao, X. J.; Yu, J. H.*; Xu, R. R., “Morphology changes of transition-metal-substituted aluminophosphate molecular sieve AlPO4-5 crystals”, Chemistry of Materials, 20(2008), 2160-2164.

    74. Di, J. C.; Chen, H. Y.; Wang, X. F.; Zhao, Y.; Jiang, L.*; Yu, J. H.*; Xu, R. R., “Fabrication of zeolite hollow fibers by coaxial electrospinning”, Chemistry of Materials, 20(2008), 3543-3545.

    75. Xing, H. Z.; Li, J. Y.; Yan, W. F.; Chen, P.; Jin, Z.; Yu, J. H.*; Dai, S.; Xu, R. R., “Cotemplating ionothermal synthesis of a new open-framework aluminophosphate with unique Al/P ratio of 6/7”, Chemistry of Materials, 20(2008), 4179-4181.

    76. Yang, W. T.; Li, J. Y.; Pan, Q. H.; Jin, Z.; Yu, J. H.*; Xu, R. R., “Na2 [VB3P2O12(OH)]·2.92H2O: A new open-framework vanadium borophosphate containing extra-large 16-ring pore openings and 128166 super cavities synthesized by using the boric acid flux method”, Chemistry of Materials, 20(2008), 4900-4905.

    77. Pan, Q. H.; Li, J. Y.; Ren, X. Y.; Wang, Z. P.; Li, G. H.; Yu, J. H.*; Xu, R. R., “[Ni(1,2-PDA)3]2(HOCH2CH2CH2NH3)3(H3O)2   [Ge7O14X3]3 (X = F, OH): A new 1D germanate with 12-ring hexagonal tubular channels”, Chemistry of Materials, 20 (2008), 370-372.

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    Projects

    1.Time Period:2020.1-2024.12

    Project name:Key Issues on the Development of High-Performance Zeolite Catalysts

    Funding source:NSFC for International Cooperation and Exchange

    Amount:2.3 millions (RMB)

    2.Time Period:2017.1-2021.12

    Project name:Atomic Scale Structural Investigation on Zeolitic Catalytic Materials by Electron Microscopy

    Technique

    Funding source:NSFC for Key Program

    Amount:3.1 millions (RMB)

    3.Time Period:2017.1-2021.12

    Project name:Molecular Engineering of Porous Functional Materials

    Funding source:National “111” Project of China's Higher Education, MOE

    Amount:4.5 millions (RMB)

    4.Time Period:2017.1-2022.12

    Project name:Porous Functional Materials

    Funding source:NSFC for Creative Research Team

    Amount:10.50 millions (RMB)