1. Research Interests

Designed Synthesis, Characterization, and Application of Mesoporous Catalytic Materials

2. Paper

(1). Dahai Pan, Shuwei Chen, Ruifeng Li, et al. Highly efficient and stable ordered mesoporous Ti-Al composite oxide catalyst for oxidative dehydrogenation of ethylbenzene to styrene with CO2. Chemical Engineering Science, 2022, 250, 117388.

(2). Dahai Pan, Ruifeng Li, Chengzhong Yu, et al. Solvothermal-assisted evaporation-induced self-assembly of ordered mesoporous alumina with improved performance. Journal of Colloid and Interface Science, 2018, 529, 432-443.

(3). Dahai Pan, Zhaoyang Dong, Ruifeng Li, et al. Structural and surface properties of highly ordered mesoporous magnesium-aluminium composite oxides derived from facile synthesis. Materials Chemistry and Physics, 2017, 186, 574-583.

(4). Dahai Pan, Qian Xu, Ruifeng Li, et al. Facile synthesis of highly ordered mesoporous cobalt–alumina catalysts and their application in liquid phase selective oxidation of styrene. RSC Advances, 2015, 5, 98377-98390.

(5). Dahai Pan, Chengzhong Yu, Xiaojun Bao, et al. New understanding and simple approach to synthesize highly hydrothermally stable and ordered mesoporous materials. Chemistry of Materials, 2009, 21, 5413-5425.

3. Patent

(1). Preparation of ordered mesoporous KIT-6 supported sulfurated zirconium aluminum composite oxide solid acid materials and their application, China, 2022-03, CN202110830200.X

(2). Preparation ordered mesoporous Ti-Al composite oxide materials and their application, China, 2021-02, CN201910835243.X

(3). Preparation of two component alumina-based composite materials with highly thermal stability, China, 2019-11，CN201710252681.4

(4). Preparation of macroporous-mesoporous ordered magnesium aluminum composite oxide materials, China, 2019-02，CN201710253428.0

(5). Equipment and method of material mixing drying system, China, 2018-11，CN201710080582.2

(6). Preparation of ordered mesoporous alumina materials, China, 2018-10，CN201710253429.5(7). Preparation of chromium-supported mesoporous catalysts and their preparation, China, 2016-08，CN201410739520.4

(8). Device and method for producing α-hemihydrous gypsum using industrial by-product gypsum by pneumatic autoclave, China, 2016-08, CN201410541719.6

(9). Preparation method for ethylbenzene dehydrogenation catalysts, China, 2016-05, CN201310502838.6

(10). Preparation method for ordered mesoporous alumina materials with highly thermal stability, China, 2014-12，CN201310458789.0

(11). Preparation method for ordered mesoporous zirconia-alumina materials, China, 2014-03, CN201110251654.8

(12). Preparation of catalysts for denitroxide reaction of methane, China, 2011-05，CN200810079646.8

4. Projects

(1). National Natural Science Foundation project (21975174), Designed construction of Ni-based catalysts with improved catalytic performance in the dehydrogenation of methylcyclohexane, 2020/01-2023/12.

(2). Emergency Management Project of National Natural Science Foundation of China (51451002), Structural modifications of mesoporous alumina and its effect on catalytic performance of alumina-base catalysts, 2015/01-2015/12.

(3). China Postdoctoral Science Foundation (2012M510783), Mesoporous alumina modified by the introduction of heteroatom and its application, 2012/03-2013/12.

(4). Natural Science Foundation of Shanxi Province, Controllable synthesis of mesoporous aluminum-based composite oxides and their properties study, 2018/12-2020/12.

(5). Natural Science Foundation of Shanxi Province, Synthesis of ordered mesoporous materials with highly hydrothermal stability via a hard template system, 2012/01-2014/12.