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于吉红教授 吉林大学未来科学国际合作联合实验室主任 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 瑞典皇家科学院外籍院士 吉林大学无机合成与制备化学国家重点实验室教授 Journal of the American Chemical Society执行主编 中国化学会副理事长 中国化学会分子筛专业委员会主任 地址:吉林省长春市前进大街2699号 电话/传真:(+86) 431-85168608 邮箱:jihong@jlu.edu.cn 主页:http://melab.jlu.edu.cn |
学术兼职和学术荣誉
曾任英国皇家化学会Chemical Science 副主编(2012-2020),2021年起担任美国化学会Journal of the American Chemical Society (JACS)执行主编,现任《高等学校化学学报》和Chemical Research in Chinese Universities主编,Accounts of Chemical Research, JACS-Au, Advanced Materials, Chem, Matter, Materials Horizons, Materials Chemistry Frontiers, National Science Review, ACS Nano, ACS Central Science, ACS Materials Letters, Inorganic Chemistry, Aggregate 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,教育部科技委国际合作学部常务副主任,国务院学位委员会第八届学科评议组成员。获得国家自然科学二等奖2项(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。
教育及工作经历
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 导师:徐如人院士
1992.09 - 1995.06 吉林大学化学系博士 导师:徐如人院士
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 合作导师:Ian D. Williams
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 合作导师:Osamu Terasaki
1997.01 - 1998.12 吉林大学化学系 副教授
1999.01 - 吉林大学化学学院 教授
2001.01 - 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
2015.12 - 中国科学院院士
2016.03 - 吉林大学未来科学国际合作联合实验室主任
2016.11 - 发展中国家科学院院士
2019.07 - 欧洲科学院外籍院士
研究领域
无机合成;纳米科学;固态化学
研究方向
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:1.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;2.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);3.多孔膜/块体材料用于环境治理 (CO2吸附、油水分离等) 及生物医用;4.能量存储:开发基于分子筛膜作为固态电解质的高性能一体化固态电池;5.主-客体组装: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。
代表性论著
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370余篇论文,获授权专利30项。主编著作4部,合作出版著作3部。(ORCID: 0000-0003-1615-5034)
1. Chi, Xiwen; Li, Malin; Di, Jiancheng; Bai, Pu; Song, Lina; Wang, Xiaoxue; Li, Fei; Liang, Shuang; Xu, Jijing*; Yu, J. H.*, A highly stable and flexible zeolite electrolyte solid-state Li-air battery, Nature. DOI10.1038/s41586-021-03410-9July2020
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, (6)2019, 601-611.
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.
78. Zhao, L.; Li, J. Y.; Chen, P.; Li, G. H.; Yu, J. H.*; Xu, R. R., “2H3O Co8(HPO3)9(CH3OH)3·H2O: An open-framework cobalt phosphite containing extra-large 18-ring channels”, Chemistry of Materials, 20(2008), 17-19.
主持承担主要科研项目
主持国家重点基础研究发展计划项目(973计划)、国家重点研发计划、国家自然科学基金重点及重大国际合作研究项目等,是国家自然科学基金委创新研究群体学术带头人、“高等学校学科创新引智计划”基地负责人、首批“全国高校黄大年式教师团队”团队负责人。