• 中文 (繁體) |
    • ENGLISH
      发表文章
      2019年发表文章
         日期:2019-01-01  

      1. 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.

      2. Qiao, Y.; Wang, Q. F.; Mu, X. W.; Deng, H.; He, P.;Yu, J. H.*; Zhou, H. S.*, “Advanced hybrid electrolyte Li-O2battery realized by dual superlyophobic membrane”,Joule, 2019, 3, 1-16.

      3. 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.

      4. Zhang, H. Y.; Liu, J. C.; Wang, B. L.; Liu, K. K.; Chen, G. R.; Yu, X. W.; Li, J. Y.*;Yu, J. H.*, “Zeolite-confined carbon dots: tuning thermally activated delayed florescence emission via energy transfer”,Materials Chemistry Frontiers, 2019, DOI:10.1039/C9QM00549H.

      5. Wang, S.; Bai, P.; Wei, Y. Z.; Liu, W.; Ren, X. Y.; Bai, J. L.; Lu, Z. M.; Yan, W. F.;Yu, J. H.*, “Three-dimensional-printed core-shell structured MFI-type zeolite monoliths for volatile organic compound capture under humid conditions”,ACS Applied Materials & Interfaces, 11(2019), 38955-38963.

      6. Wang, B. X.; Wang, Q. F.; Di, J. C.*; Miao, S. D.;Yu, J. H.*, “Flexible multifunctional porous nanofibrous membranes for high-efficiency air filtration”,ACS Applied Materials & Interfaces, 11(2019), 43409-43415.

      7. Wang, X.; Liu, Z. J.; Hill, E. H.; Zheng, Y. B.; Guo, G. Q.; Wang, Y.; Weiss, P. S.;Yu, J. H.;Yang, Y. W.*, “Organic-inorganic hybrid pillarene-based nanomaterial for label-free sensing and catalysis”,Matter, 1(2019), 1-14.

      8. Wang, Y.; Wang, B. X.; Wang, Q. F.; Di, J. C.*; Miao, S, D.;Yu, J. H.*, “Amino-functionalized porous nanofibrous membranes for simultaneous removal of oil and heavy-metal ions from wastewater”,ACS Applied Materials & Interfaces, 11(2019), 1672-1679.

      9. Song, X. J.; Hu, D. W.; Yang, X. T.; Zhang, H.; Zhang, W. X.; Li, J. Y.; Jia, M. J.*;Yu, J. H.*, “Polyoxomolybdic cobalt encapsulated within Zr-based metal-organic frameworks as efficient heterogeneous catalysts for olefins epoxidation”,ACS Sustainable Chemistry & Engineering, 7(2019), 3624-3631.

      10. Veselýa, O.; Pang, H.; Vornholtc, S. M.; Mazura, M.;Yu, J. H.; Opanasenkoa, M.; Eliášová, P.*, “Hierarchical MTW zeolites in tetrahydropyranylation of alcohols: comparison of bottom-up and top-down methods”,Catalysis Today, 324 (2019), 123-134.

      11. Wang, S.; Li, R. Y.; Qing, Y. A.; Wei, Y. Z.; Wang, Q. F.; Zhang, T. R.; Sun, C.; Qin, Y. G.; Li, D. D.*;Yu, J. H., “Antibacterial activity of Ag-incorporated zincosilicate zeolite scaffolds fabricated by additive manufacturing”,Inorganic Chemistry Communications, 105(2019), 31-35.

      12. 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 CO2capture”,Advanced Science, (6)2019,1901317.

      13. 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.

      14. 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.

      15. Liu, J.C.;Zhang, H.Y.;Wang, N.; Yu, Y.; Cui, Y.Z.; Li, J.Y.*;Yu, J.H.*, “Template-modulated afterglow of carbon dots in zeolites: room-temperature phosphorescence and thermally activated delayed fluorescence”,ACS Materials Letters,1(2019),58-63.

      16. Chen, M.Y.; Sun, Q.M.; Yang, G.J.; Chen, X.X.; Zhang, Q.; Zhang, Y.B.; Yang, X.G.;Yu, J.H.*, “Enhanced performance for selective catalytic reduction of NOx with NH3 over nanosized Cu/SAPO-34 catalysts”,ChemCatChem, 2019, DOI: 10.1002/cctc.201900412.

      17. Chen, M.Y.; Sun, Q.M.; Yang, X.G.;Yu, J.H.*, “A dual-template method for the synthesis of bimetallic CuNi/ SSZ-13 zeolite catalysts for NH3-SCR reaction”,Inorganic Chemistry Communication, 105(2019), 203-207.

      18. Li, L.; Wang, J.Z.; Li, Y.*;Yu, J.H., “Systematic study of Ti‐distribution in titanosilicate *BEA zeolites via symmetry‐adapted enumeration”,Chinese Journal of Chemistry, 37(2019), 593-596.

      19. Pan, Y. Y.; Chen, G.R.; Yang, G.Y.; Chen, X.X. *;Yu, J.H.*, “Efficient post-synthesis of hierarchical SAPO-34 zeolites via organic amine etching under hydrothermal conditions and their enhanced MTO performance”,Inorganic Chemistry Frontiers, 6(2019), 1299-1303.

      20. Wang, Y.L.; Zhang, Q.; Meng, X.Y.; Bai, R.S.; Yu, Y.; Liu, Y.C.; Song, X.W.*;Yu, J.H.*, “Mesoporogen-free synthesis of nanosized hierarchical ITQ-21 zeolites”,Inorganic Chemistry Frontiers, 6(2019), 1184-1188.

      21. Li, L.; Slater, B.; Yan, Y.; Wang, C.M.; Li, Y.*;Yu, J.H., “Necessity of heteroatoms for realizing hypothetical aluminophosphate zeolites: a high-throughput computational approach”,The Journal of Physical Chemistry Letters, 10(2019), 1411-1415.

      22. 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.

      23. Li, J.Y.; Wang, B.L.; Zhang, H.Y.;Yu, J. H.*, “Carbon dots-in-matrix boosting intriguing luminescence properties and applications”,Small, 2019, DOI: 10.1002/smll.201805504.

      24. 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.

      25. Carceller, J.M.; Galán, J.P.M.; Monti, R.; Bassan, J.C.; Filice, M.; Iborra, S.*;Yu, J.H.; Corma, A.*, “Selective synthesis of citrus flavonoids prunin and naringenin using heterogeneized biocatalyst on graphene oxide”,Green Chemistry, 21(2019),839-849.

      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”,AdvancedMaterials, 31(2019), 1803966.

      28. Liu, P.S.; Cui, Y.; Gong, G.B.; Du, X.H.; Wang, J.Y.; Gao, X.H.; Jia, M.J.*,Yu, J. H.*, “Vanadium contamination on the stability of zeolite USY and efficient passivation by  La2O3for cracking of residue oil”,Microporous and Mesoporous Materials, 279 (2019), 345-351. 

      29. Li, Y.R.; Bai, P.; Yan, Y.;Yan, W.F.*; Shi, W. & Xu, R.R.Micropor. Mesopor. Mater. 273, 203-211 (2019) “Removal of Zn2+, Pb2+, Cd2+, and Cu2+ from aqueous solution by synthetic clinoptilolite”.

      30. Wang, S.; Liu, Y.C.; Ye, Y.; Meng, X.Y.; Du, J.F.;Song X.W.*;Liang, Z.Q.* “Ultrahigh volatile iodine capture by conjugated microporous polymer based on N,N,N',N'-tetraphenyl-1,4-phenylenediamine”,Polym. Chem., 2019, 10, DOI:10.1039/C9PY00288J.

      31. Du, J.F.; Cui, Y.Z.; Liu, Y.C.; Krishna, R.; Yu, Y.; Wang, S.; Zhang, C.H.;Song, X.W.*;Liang, Z.Q.* “Benzodiimidazole-based Covalent Triazine Frameworks for Highly Selective CO2 Capture”Microporous Mesoporous Mater., 2019, 276, 213-222.



      上一篇:2020年发表文章
      下一篇:2018年发表文章