2013年

研究成果

2025年 2024年 2023年 2022年 2021年 2020年 2019年 2018年 2017年 2016年 2015年 2014年 2013年 2012年 2011年 2010年 2009年 2008年 2007年 2006年 2005年 2004年 2003年 2002年 2001年 2000年 1999年 1998年 1997年 1996年 1995年 1994年 1993年 1992年专利

1.Synthesis of sandwich-like TiO2@C composite hollow spheres with high rate capability and stability, Lichen Liu, Qi Fan, Chuanzhi Sun, Xianrui Gu, Hao Li, Fei Gao, Yanfeng Chen, Lin Dong, J. Power Source, 221, 141-148 (2013).

2.Investigation of surface synergetic oxygen vacancy in CuO–CoO binary metal oxides supported on gamma-Al2O3 for NO removal by CO. Yuanyuan Lv, Lichen Liu, Hongliang Zhang, Xiaojiang Yao, Fei Gao, Kaian Yao, Lin Dong, Yi Chen. J. Colloid Interface Sci., 390, 158-169 (2013).

3.A comparative study of different doped metal cations on the reduction,adsorption and activity of CuO/Ce0.67M0.33O2 (M = Zr4+, Sn4+, Ti4+) catalysts for NO + CO reaction. Xiaojiang Yao, Qiang Yu, Zeyang Ji, Yuanyuan Lv, Yuan Cao, Changjin Tang, Fei Gao, Lin Dong, Yi Chen. Applied Catalysis B: Environmental, 130–131, 293–304 (2013).

4.NO reduction by CO over CuO–CeO2 catalysts: effect of preparation methods. Xiaojiang Yao, Fei Gao, Qiang Yu, Lei Qi, Changjin Tang, Lin Dong, Yi Chen. Catalysis Science & Technology, 3, 1355-1366 (2013).

5.Investigation of the physicochemical properties and catalytic activities of Ce0.67M0.33O2 (M = Zr4+, Ti4+, Sn4+) solid solutions for NO removal by CO. Xiaojiang Yao, Changjin Tang, Zeyang Ji, Yue Dai, Yuan Cao, Fei Gao, Lin Dong, Yi Chen. Catalysis Science & Technology, 3, 688-698 (2013).

6.Ineractions among supported copper-based catalyst components and their effects on performance:A review.Lin Dong,Yao Xiaojiang, Yi Chen. Chinese Journal of Catalysis, 34,851-864 (2013).

7.CuOx /CeO2 催化剂物种演变及其对CO 富氢氧化反应的影响.Wu Xiaoxia, Yu qiang, Yao xiaojiang, Lin Dong Journal of The Chinese Society of Rare Eraths,31, 181-189 (2013).

8.Treatment induced remarkable enhancement of low-temperature activity and selectivity of copper-based catalysts for NO reduction.Chengyan Ge, Lianjun Liu, Xiaojiang Yao, Changjin Tang, Fei Gao and, Lin Dong Catalysis Science & Technology ,3, 1547-1557 (2013).

9.In situ loading transition metal oxide clusters on TiO2 nanosheets as co-catalysts for exceptional high photoactivity. Lichen Liu, Zeyang Ji, Weixin Zou, Xianrui Gu,Yu Deng, Fei Gao,Changjin Tang and, Lin Dong. ACS Catalysis , 3, 2052-2061 (2013).

10.Tailoring copper valence states in CuO/gamma-Al2O3 catalystsby an in situ technique induced superior catalytic performance for simultaneous elimination of NO and CO. XiaoJiang Yao, Fei Gao, Yuan Cao, Changjin Tang,Deng Yu and, Lin Dong,Yi Chen. physical chemistry chemical physics, 15, 14945-14950 (2013).

11.Anion-Assisted Synthesis of TiO2 Nanocrystals with Tunable Crystal Forms and Crystal Facets and Their Photocatalytic Redox Activities in Organic Reactions. Lichen Liu, Xianrui Gu,Zeyang Ji, Weixin Zou,Changjin Tang, Fei Gao, and, Lin Dong. The Journal of Physical Chemistry C , 117, 18578-18587 (2013).

12.The application of incorporation model in γ-Al2O3-supported single and dual metal oxide catalysts: A review . Xiao Jiang Yao, Fei Gao,and, Lin Dong. Chinese Journal of Catalysis , 34, 1975–1985 (2013).

13.固相浸渍法制备镍铈催化剂及其在CO氧化反应中的应用. 孙敬方,葛成艳,姚小江,曹原,张雷,汤常金, 董林 . 物理化学学报 , 29(11), 2451-2458 (2013).

14.Crystal-Plane Eff ects on the Catalytic Properties of Au/TiO2. Lichen Liu, Xianrui Gu,Yuan Cao, Xiaojiang Yao, Lei Zhang,Changjin Tang, Fei Gao, and, Lin Dong. ACS Catalysis , 3, 2768-2775 (2013).

15.Simple synthesis of ﬂower-like ZnO by a dextran assisted solution route and their photocatalytic degradation property. Lei Qi, Houshen Li, and, Lin Dong Materials Letters , 107, 354-356,(2013).

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