Yu, Hao
time: 2017-04-14


Introduction:


Name:Hao YU

Tel:0086-20-87114916

Email: yuhao@scut.edu.cn

Address: 504 Bldg. 16#, 381 Wushan Road, Tianhe District, Guangzhou 510640, P. R. China

Educational background:

     2005 Tsinghua University, Beijing, China, Ph.D.in Chemical Engineering

    1999 Tsinghua University, Beijing, China, B. S. in Chemical Engineering

Research Areas:

     My research interests are in:

     (1)Novel catalysts based on carbon nanomaterials

     (2)Sustainable catalytic oxidation technology

     (3)Catalytic reaction engineering

    The research has been supported by the National Natural Science Foundation of China, the Guangdong Natural Science Funds for Distinguished Young Scholar, and Program for New Century Excellent Talents in University etc.

Awards and Honors:

     2013 New Century Excellent Talents in University, Ministry of Education of the People's Republic of China

     2012 Distinguished Young Scholar, Guangdong Provincial National Science Foundation

     2011 The Pearl River New-Star of Science & Technology supported by Guangzhou City

     2010 Liao Shijun, Peng Feng, Liu Junmin, Wang Rongfang, Wang Hhongjuan, Yu Hao, Wu Yanni, Liang Zhenxing, Xu 

              Leiming, Second-grade Natural Science Award of Chinese Minster of Education

     2005 Wei Fei, Qian Weizhong, Luo Gguohua, Wang Yao, Wang Zhanwen, Jin Yongn, Yu Hao, Li Zhifei, Zhang Qunfeng,  

               Liu Tang, Ning Guoqing, Xiang Lan, Wang Dezheng, Huang Wei, Gu Guangsheng, Li Fanxing, Wu Jun, Wang 

               Qixiang. First-grade (blue ribbon) Natural Science Award of Chinese Minster of Education

Recent Publications:

     1.Ning, X.; Li, Y.; Dong, B.; Wang, H.; Yu, H.; Peng, F.; Yang, Y., Electron transfer dependent catalysis of Pt on N-doped carbon nanotubes: Effects of synthesis method on metal-support interaction. J Catal 2017, 348, 100-109.

     2. Dang, C.; Wang, H.; Yu, H.; Peng, F., Co-Cu-CaO catalysts for high-purity hydrogen from sorption-enhanced steam reforming of glycerol. Appl Catal A-Gen 2017, 533, 9-16.

     3. Zhou, C. M.; Guo, Z.; Dai, Y. H.; Jia, X. L.; Yu, H.; Yang, Y. H., Promoting role of bismuth on carbon nanotube supported platinum catalysts in aqueous phase aerobic oxidation of benzyl alcohol. Appl Catal B-Environ 2016, 181, 118-126.

     4. Yan, Y.; Dai, Y.; Wang, S.; Jia, X.; Yu, H.; Yang, Y., Catalytic applications of alkali-functionalized carbon nanospheres and their supported Pd nanoparticles. Appl Catal B-Environ 2016, 184, 104-118.

     5. Peng, C.; Yang, X.; Li, Y.; Yu, H.; Wang, H.; Peng, F., Hybrids of Two-Dimensional Ti3C2 and TiO2 Exposing {001} Facets toward Enhanced Photocatalytic Activity. ACS Appl Mater & Inter 2016, 8 (9), 6051-60.

     6. Ning, X.; Li, Y.; Yu, H.; Peng, F.; Wang, H.; Yang, Y., Promoting role of bismuth and antimony on Pt catalysts for the selective oxidation of glycerol to dihydroxyacetone. J Catal 2016, 335, 95-104.

     7. Mu, C.; Huang, K.; Cheng, T.; Wang, H.; Yu, H.; Peng, F., Ni foams decorated with carbon nanotubes as catalytic stirrers for aerobic oxidation of cumene. Chem Eng J 2016, 306, 806-815.

     8. Dang, C.; Yu, H.; Wang, H.; Peng, F.; Yang, Y., A bi-functional CoCaOCa12Al14O33 catalyst for sorption-enhanced steam reforming of glycerol to high-purity hydrogen. Chem Eng J 2016, 286, 329-338.

     9. Cheng, T.; Yu, H.; Peng, F.; Wang, H.; Zhang, B.; Su, D., Identifying active sites of CoNC/CNT from pyrolysis of molecularly defined complexes for oxidative esterification and hydrogenation reactions. Catal Sci Technol 2016, 6 (4), 1007-1015.

     10. Chen, H.; Dai, Y.; Jia, X.; Yu, H.; Yang, Y., Highly selective gas-phase oxidation of ethanol to ethyl acetate over bi-functional Pd/zeolite catalysts. Green Chem 2016, 18 (10), 3048-3056.

     11. Wu, Y. S.; Shi, Q. Q.; Li, Y. H.; Lai, Z. C.; Yu, H.; Wang, H. J.; Peng, F., Nitrogen-doped graphene-supported cobalt carbonitride@oxide core-shell nanoparticles as a non-noble metal electrocatalyst for an oxygen reduction reaction. J Mater Chem A 2015, 3 (3), 1142-1151.

     12. Ning, X.; Yu, H.; Peng, F.; Wang, H., Pt nanoparticles interacting with graphitic nitrogen of N-doped carbon nanotubes: Effect of electronic properties on activity for aerobic oxidation of glycerol and electro-oxidation of CO. J Catal 2015, 325 (0), 136-144.

     13. Huang, X.; Dang, C.; Yu, H.; Wang, H.; Peng, F., Morphology Effect of Ir/La2O2CO3 Nanorods with Selectively Exposed {110} Facets in Catalytic Steam Reforming of Glycerol. ACS Catalysis 2015, 5 (2), 1155-1163.

     14. Cao, Y. H.; Li, Y. H.; Yu, H.; Peng, F.; Wang, H. J., Aerobic oxidation of α-pinene catalyzed by carbon nanotubes. Catal Sci Technol 2015, 5 (8), 3935-3944.

     15. Cao, Y. H.; Yu, H.; Peng, F.; Wang, H. J., Selective Allylic Oxidation of Cyclohexene Catalyzed by Nitrogen-Doped Carbon Nanotubes. ACS Catalysis 2014, 4 (5), 1617-1625.

     16. Yang, X. X.; Wang, H. J.; Li, J.; Zheng, W. X.; Xiang, R.; Tang, Z. K.; Yu, H.; Peng, F., Mechanistic Insight into the Catalytic Oxidation of Cyclohexane over Carbon Nanotubes: Kinetic and In Situ Spectroscopic Evidence. Chem-Eur J 2013, 19 (30), 9818-9824.

     17. Cao, Y. H.; Yu, H.; Tan, J.; Peng, F.; Wang, H. J.; Li, J.; Zheng, W. X.; Wong, N. B., Nitrogen-, phosphorous- and boron-doped carbon nanotubes as catalysts for the aerobic oxidation of cyclohexane. Carbon 2013, 57, 433-442.

     18. Cao, Y. H.; Luo, X. Y.; Yu, H.; Peng, F.; Wang, H. J.; Ning, G. Q., sp2- and sp3 -hybridized carbon materials as catalysts for aerobic oxidation of cyclohexane. Catal Sci Technol 2013, 3 (10), 2654-2660.

     19. Yang, X. X.; Yu, H.; Peng, F.; Wang, H. J., Confined Iron Nanowires Enhance the Catalytic Activity of Carbon Nanotubes in the Aerobic Oxidation of Cyclohexane. Chemsuschem 2012, 5 (7), 1213-1217.

     20. Yang, G. X.; Yu, H.; Huang, X. Y.; Peng, F.; Wang, H. J., Effect of calcium dopant on catalysis of Ir/La2O3 for hydrogen production by oxidative steam reforming of glycerol. Appl Catal B-Environ 2012, 127, 89-98.

     21. Chen, H. Q.; Yu, H.; Li, J. C.; Peng, F.; Wang, H. J., Effect of Inlet Flow Distributor for Reagent Equalization on Autothermal Reforming of Ethanol in a Microreformer. Ind Eng Chem Res 2012, 51 (30), 10132-10139.

    22. Yu, H.; Peng, F.; Tan, J.; Hu, X. W.; Wang, H. J.; Yang, J. A.; Zheng, W. X., Selective Catalysis of the Aerobic Oxidation of Cyclohexane in the Liquid Phase by Carbon Nanotubes. Angew Chem Int Edit 2011, 50 (17), 3978-3982.

    23. Li, J. C.; Yu, H.; Yang, G. X.; Peng, F.; Xie, D. L.; Wang, H. J.; Yang, J., Steam Reforming of Oxygenate Fuels for Hydrogen Production: A Thermodynamic Study. Energ Fuel 2011, 25 (6), 2643-2650.

    24. Chen, H. Q.; Yu, H.; Yang, G. X.; Peng, F.; Wang, H. J.; Yang, J. A., Auto-thermal ethanol micro-reformer with a structural Ir/La2O3/ZrO2 catalyst for hydrogen production. Chem Eng J 2011, 167 (1), 322-327.

    25. Chen, H. Q.; Yu, H.; Peng, F.; Yang, G. X.; Wang, H. J.; Yang, J.; Tang, Y., Autothermal reforming of ethanol for hydrogen production over perovskite LaNiO3. Chem Eng J 2010, 160 (1), 333-339.

    26. Chen, H. Q.; Yu, H.; Peng, F.; Wang, H. J.; Yang, J.; Pan, M. Q., Efficient and stable oxidative steam reforming of ethanol for hydrogen production: Effect of in situ dispersion of Ir over Ir/La2O3. J Catal 2010, 269 (2), 281-290.