个人简介
2010年毕业于北京科技大学,获材料学博士学位。
研究领域
1. 化工过程开发2. 新能源材料开发3. 环境催化治理
近期论文
[1] Renchun Yang*, Xiaojia Lu, Huan Zhang, et al. Glycol-assisted construction of three dimensionally ordered macroporous ZnO-Cu2O-TiO2 with enhanced photocatalytic properties [J]. Applied Surface Science, 2016, 362, 237–243.[2] Renchun Yang*, Xiaojia Lu, Zhihua Zhang, et al. Three-dimensionally ordered macroporous LaMnO3 with tunable oxygen vacancies via nitric acid–aided modulating and their catalytic combustion properties [J]. RSC Advances, 2015, 5, 98404–98411.[3] Renchun Yang*, Xiaojia Lu, Xiang Huang, et al. Bi-component Cu2O–CuCl composites with tunable oxygen vacancies and enhanced photocatalytic properties [J]. Applied Catalysis B: Environmental, 2015, 170, 225–232.[4] Renchun Yang*, Tingxian Tao, Yongming Dai, et al. Green synthesis of bi-component Mn3O4–MnO2 nanorods and enhanced catalytic properties [J]. Catalysis Communications, 2015, 60, 96–99.[5] Renchun Yang*, Zhihua Zhang, Junsheng Wu, et al. Hydrotreating Performance of La-modified Ni/Al2O3 Catalysts Prepared by Hydrothermal Impregnation Method [J]. Kinetics and Catalysis, 2015, 56(2), 222–225.[6] Renchun Yang*, Zhihua Zhang, Yiming Ren, et al. Green synthesis of bi-component copper oxide composites and enhanced photocatalytic performance [J]. Materials Science and Technology, 2015, 31(1), 25–30.[7] Renchun Yang*, Liangjun Yang, Tingxian Tao, et al. Contrastive study of structure and photocatalytic performance with three-dimensionally ordered macroporous CuO–TiO2 and CuO/TiO2 [J]. Applied Surface Science, 2014, 288, 363–368.[8] Renchun Yang*, Zhichun Wu, Dingxing Tang, et al. Synthesis of Cu2O crystals with negative surface curvature at various positions via Al3+ ions inducing [J]. Materials Letters, 2014, 117, 211–213.[9] Renchun Yang*, Fengyun Ma, Tingxian Tao, et al. Zn2+-assisted synthesis of concave Cu2O crystals and enhanced photocatalytic properties. Catalysis Communications, 2013, 42, 109–112.[10] RenchunYang*, DingxingTang, Tingxian Tao, et al. One-step green synthesis of hierarchical hydrangea shaped Cu2O–CuO composite. Materials Letters, 2013, 113: 156–158.[11] Renchun Yang*, Dingxing Tang, Fengyun Ma, et al. One-Pot Low Temperature Synthesis of Monodisperse Silver Nanoparticles. Journal of Nanoscience and Nanotechnology, 2012, 12, 7820–7823.[12] Renchun Yang*, Xiaogang Li, Junsheng Wu, et al. Effects of Lanthanum on the Structure and the Catalytic Performance of Ni/Al2O3 Catalysts for the Hydrotreating of Crude 2-Ethylhexanol. International Journal of Chemical Reactor Engineering, 2012, 10, 1–14.[13] Renchun Yang, JunshengWu, Xiaogang Li*, et al. Hydrotreating of crude 2-ethylhexanol over Ni/Al2O3 catalysts: Ni species dispersion-active sites correlation. Applied Catalysis A: General, 2010, 383, 112–118.[14] Renchun Yang, Xiaogang Li*, Junsheng Wu, et al. The difference of hydrogenation performance between Ni-in-Al2O3 and Ni-on-Al2O3 for hydrotreating of crude 2-ethylhexanol. Korean Journal of Chemical Engineering, 2010, 27, 55–61.[15] Renchun Yang, Xiaogang Li*, Junsheng Wu, et al. Hydrotreating of crude 2-ethylhexanol over Ni/Al2O3 catalysts: Surface Ni species-catalytic activity correlation[J]. Applied Catalysis A: General, 2009, 368, 105–112.[16] Renchun Yang, Xiaogang Li*, Junsheng Wu, et al. Promotion effects of La and Ce on Ni/γ-Al2O3 catalysts in hydrotreating of crude 2-ethylhexanol [J]. Catalysis letter, 2009, 132, 275–280.[17] Renchun Yang, Xiaogang Li*, Junsheng Wu, et al. Promotion effects of copper and lanthanum oxides on nickel/ gamma-alumina catalyst in the hydrotreating of crude 2-ethylhexanol [J]. Journal of Physical Chemistry C, 2009, 113, 17787–17794.