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  1. 丛妍,Dual LSPR of Au/W18O49 heterostructures fupconversion enhancement application of molecular detection, J. Mater. Chem. A ,2020, 8, 040-4048. 影响因子:10.733.

  2. 曹保胜,Wide-range highly-sensitive optical thermometers based on the temperature-dependent energy transfer from Er to Nd in Er/Yb/Nd codoped NaYF4 upconversion nanocrystals, Chemical Engineering Journal , 2020,385:123906. 影响因子:8.355.

  3. 张振翼,IR-Driven strong plasmonic-coupling on Ag nanorices/W18O49 nanowires heterostructures fphoto/thermal synergistic enhancement of H-2 evolution from ammonia borane, Applied Catalysis B: environmental , 2019, 252, 164-173. 影响因子:14.229.

  4. 董大朋,An electron-donating strategy to guide the construction of MOF photocatalysts toward cocatalyst-free highly efficient photocatalytic H2 evolution, J. Mater. Chem. A ,2019, 7, 24180-24185. 影响因子:10.733.

  5. 董斌,Energy transfer from Er to Nd ions by the thermal effect promotion of the photocatalysis of the NaYF4:Yb,Er,Nd/W18O49 heterostructure, Nanoscale , 2019, 11, 7433-7439. 影响因子:6.97.

  6. 张振翼,IR-Driven Ultrafast Transfer of Plasmonic Hot Electrons in Nonmetallic Branched Heterostructures Enhanced H2 Generation, Advanced Materials , 2018, 1705221. 影响因子:25.809.

  7. 张振翼,Near-infrared-plasmonic energy upconversion in a nonmetallic heterostructure for efficient H2 evolution from ammonia borane, Advanced Science, 2018, 1800748. 影响因子:15.804.

  8. 黄金斗,Theoretical Study of Charge-Transport Optical Properties of Indeno[1,2-b]fluorene-6,12-dione-based Semiconducting Materials, Acta Crystallographica Section B: Structural Science, Crystal Engineering Materials , 2018, B74, 705-711. 影响因子: 6.732.

  9. 张振翼,A nonmetal plasmonic z-scheme photocatalyst with UV-to NIR-driven photocatalytic protons reduction, Advanced Materials, 2017, 29, 1606688. 影响因子:25.809.

  10. 张振翼,Photo-assisted self-optimizing of charge-carriers transport channel inthe recrystallized multi-heterojunction nanofibers for highly efficientphotocatalytic H2generation, Applied Catalysis B: environmental , 2017, 203, 599-606. 影响因子:14.229.

  11. 林峰,Photocatalytic oxidation of thiophene on RuO2/SO42−-TiO2: Insights for cocatalyst and solid-acid, Applied Catalysis B: Environmental, 2016, 188, 253-258. 影响因子:14.229.

  12. 赵英,Self-assembly of carbon nanotubes in polymer melts: simulation of structural and electrical behaviour by hybrid particle-field molecular dynamics, Nanoscale , 2016, 8, 15538-15552. 影响因子:6.97.

  13. 张振翼,Multichannel-improved charge-carrier dynamics in well-designed hetero-nanostructural plasmonic photocatalysts toward highly efficient solar-to fuels conversion, Advanced Materials, 2015, 27, 5906-5914. 影响因子:25.809.

  14. 张振翼,Ultrathin hexagonal SnS2 nanosheets coupled with g-C3N4 nanosheets as 2D/2D heterojunction photocatalysts toward high photocatalytic activity, Applied Catalysis B: environmental , 2015, 163, 298-305. 影响因子:14.229.

  15. 张振翼,Selective photocatalytic decomposition of formic acid over AuPd nanoparticle-decorated TiO2 nanofibers toward high-yield hydrogen production, Applied Catalysis B: environmental , 2015, 162, 204-209. 影响因子:14.229.

  16. 张振翼,Rational tailoring of ZnSnO3/TiO2 heterojunctions with bioinspired surface wettability for high-performance humidity nanosensors, Nanoscale ,2015, 7, 4149-4155. 影响因子:6.97.

  17. 张振翼,Solar-to-fuels conversion over In2O3/g-C3N4 hybrid photocatalysts, Applied Catalysis B: environmental , 2014, 147, 940-946. 影响因子:14.229.

  18. 张振翼,Intercalated graphitic carbon nitride: a fascinating two-dimensional nanomaterial for an ultra-sensitive humidity nanosensor, Nanoscale , 2014, 6, 9250-9256. 影响因子:6.97.

  19. 张振翼,Direct evidence of plasmon enhancement on photocatalytic hydrogen generation over Au/Pt-decorated TiO2 nanofibers, Nanoscale, 2014, 6, 5217-5222. 影响因子:6.97.

  20. 于乃森,Sunflower arrays ZnO nanostructures on patterned sapphire, Materials Today , 2013, 16,44. 影响因子:24.372.

  21. 张振翼,Hierarchical assembly of ultrathin hexagonal SnS2 nanosheets onto electrospun TiO2 nanofibers:enhanced photocatalytic activity based on photoinduced interfacial charge transfer, Nanoscale , 2013, 5, 606. 影响因子:6.97.

  22. 董斌,Temperature Sensing and In Vivo Imaging by Molybdenum Sensitized Visible Upconversion Luminescence of Rare-Earth Oxides, Advanced Materials, 2012, 24, 1987–1993. 影响因子:25.809.