唐天地 - 温州大学 - 化学与材料工程学院

研究领域

1、多孔沸石催化材料的合成与表征：采用新方法、新途径和新型模板剂，低成本制备多级孔结构的沸石催化材料并进行表征研究。 2、燃油精制催化技术：以新型催化材料的研制为基础，致力于新型、低成本、高效能油品精制催化剂的开发，实现在温和条件下深度脱除燃油中的含硫、含氮有机化合物。 3、非均相催化有机合成：以多孔沸石新型材料组装过渡金属用于非均相有机合成，发展新的有机合成路线、清洁的合成方法、经济的合成策略。

近期论文

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Tiandi Tang*, L. Zhang, W. Fu, Y. Ma, J. Xu, J. Jiang,G. Fang, and F. Xiao*, Design and Synthesis of Metal Sulfide Catalysts Supported on Zeolite Nanofiber Bundles with Unprecedented Hydrodesulfurization Activities, J. Am Chem. Soc. 135 (2013) 11437-11440. W. Fu, L. Zhang, Tiandi Tang * , Q. Ke, S. Wang, J. Hu, G. Fang, and F. Xiao*, Extraordinarily High Activity in the Hydrodesulfurization of 4,6-Dimethyldibenzothiophene over Pd Supported on Mesoporous Zeolite Y, J. Am Chem. Soc. 133 (2011) 15346-15349. Z. Kang, G. Fang, Q. Ke*, Jianbo Hu, Tiandi Tang*, Superior Catalytic Performance of Mesoporous Zeolite TS-1 for the Oxidation of Bulky Organic Sulfides, ChemCatChem. 5 (2013) 2191-2194 F. Jiang, Shun Wang *, L. Li, H. Jin, W. Zhang, J. Lin, Tiandi Tang * and Jichang Wang *, A rapid green route for fabricating efficient SERS substrates, Green Chem., 2011, 13, 2831-2836. L. Zhang,W. Fu, Q. Ke, S. Zhang, H. Jin, J. Hu, S.Wang, Tiandi Tang*, Study of hydrodesulfurization of 4,6-DM-DBT over Pd supported on mesoporous USY zeolite, Applied Catalysis A: 433-434 (2012) 251-257. Tiandi Tang, C. Yin, L. Wang, Y. Ji, F. Xiao * , Superior performance in deep saturation of bulky aromatic pyrene over acidic mesoporous Beta zeolite-supported palladium catalyst, Journal of Catalysis, 249 (2007) 111–115. Tiandi Tang, C. Yin, L. Wang, Y. Ji, F. Xiao*, Good sulfur tolerance of a mesoporous Beta zeolite-supported palladium catalyst in the deep hydrogenation of aromatics, Journal of Catalysis Tiandi Tang, C. Yin, N.Xiao, M. Guo, and F. Xiao*, High activity in catalytic oxidation of benzyl alcohol with molecular oxygen over carboxylic-functionalized carbon nanofiber supported ruthenium catalysts, Catalysis Letters. Q. Ke, W. Fu, S. Wang, Tiandi Tang*, and J.Zhang，Facile Preparation of Superhydrophobic Biomimetic Surface Based on Octadecyltrichlorosilane and Silica Nanoparticles，ACS Applied materials & Interfaces. 2 (2010) 2393-2398. Q. Ke, S. Zhang, Tiandi Tang * , S. Wang, H. Jing, Intrinsic dew-enhancing ability of SiO2/PODS materials，Colloids and SurfacesA 377(2011)110-114. Q. Ke, W. Fu, H. Jin, L. Zhang, Tiandi Tang*, Jingfeng Zhang, Fabrication of mechanically robust superhydrophobic surfaces based on silica micro-nanoparticles and polydimethylsiloxane, Surface & Coatings Technology 205 (2011) 4910–4914.