1)Comparative investigation of the MTH induction reaction over HZSM-5 and HSAPO-34 catalysts, You Zhou, Liang Qi, Yingxu Wei,Zhongmin Liu*,Molecular Catalysis,433, 20- 27, 2017.

2)Lattice Boltzmann simulations of three-dimensional incompressible flows in a four-sided lid driven cavity. Chenggong Li，Jerome P.-Y. Maa,FLUID DYNAMICS RESEARCH,49, 10.1088/1873-7005/aa5658,2017.

3)Efficient sulfonic acid resin catalysts for carbonylation of dimethoxymethane to value-added methyl methoxyacetate. Lei Shi, Jie Yao, Wenliang Zhu,Zhongmin Liu*, Journal of Chemical Engineering, 68, 3739- 3746, 2017.

4)Multi-relaxation-time lattice Boltzmann simulations of lid driven flows using graphics processing unit.Chenggong Li，Jerome P.-Y. Maa,APPLIED MATHEMATICS AND MECHANICS-ENGLISH EDITION,38, 10.1007/s10483-017-2194-9,2017.

5)Investigation of low-temperature hydrothermal stability of Cu-SAPO-34 for selective catalytic reduction of NOx with NH3. Xiao Xiang, Pengfei Wu, Yi Cao, Lei Cao, Quanyi Wang, Shutao Xu, Peng Tian,Zhongmin Liu*, Chinese Journal Of Catalysis, 38(5): 918-927, 2017.

6)SAPO-34 synthesized with n-butylamine as a template and its catalytic application in the methanol amination reaction. Yuyan Qiao, Pengfei Wu, Xiao Xiang, Miao Yang, Quanyi Wang, Peng Tian*,Zhongmin Liu, Chinese Journal Of Catalysis, 38(3): 574-582, 2017.

7)On the rotation of a circular porous particle in 2D simple shear flow with fluid inertia.Chenggong Liu，Mao Ye*，Zhongmin Liu,JOURNAL OF FLUID MECHANICS,808, 10.1017/jfm.2016.670,2017

8)Numerical simulation of scale-up effects of methanol-to-olefins fluidized bed reactors, Bona Lu, Jingyuan Zhang, Hao Luo, Wei Wang, hua li, mao ye*,Zhongmin liu, Jinghai Li, wangwei, Chemical Engineering Science, 171, 244-255, 2017.

9)Attrition of methanol to olefins catalyst in jet cup. Jingai Hao, Yinfeng Zhao, Mao Ye*,Zhongmin Liu, Powder Technology, 316: 79-86, 2017.

10)Experimental and numerical study of particle velocity distribution in the vertical pipe after a 90° elbow.Yong Lu，Zhenbo Tong，Donald H. Glass，William J. Easson，叶茂,POWDER TECHNOLOGY,314:500-509,2017

11)A numerical study of the bubble induced pressure fluctuation in gas-fluidized beds, yuli zhang, Rui Xiao, mao ye,Zhongmin liu, ruixiao*, Powder Technology,314, 387- 399, 2017

12)Insights into the aminothermal crystallization process of SAPO-34 and its comparison with hydrothermal system. BeiBei Gao, Dong Fan, Lijing Sun, Hongyu An, Fengtao Fan,Shutao Xu, Peng Tian*,Zhongmin Liu*, Microporous And Mesoporous Materials, 248: 204-213, 2017.

13)Recent advances of the nano-hierarchical SAPO-34 in the methanol-to-olefin (MTO) reaction and other applications, jiawei zhong, jingfeng han, xuying wei, chunshan song,Zhongmin Liu*, Catalysis Science & Technology, 7, 4905-4923, 2017.

14)Investigation of methanol conversion over high-Sibeta zeolites and the reaction mechanism of theirhigh propene selectivity, xuebin zhao, linying wang, jinzhe li, shutao xu, wenna zhang, yingxu wei, xinwen guo, peng tian,Zhongmin Liu*,Catalytic Science and Technology,7, 5882-5892, 2017.

15)Comparative study of MTO kinetics over SAPO-34 catalyst in fixed and fluidized bed reactors.xiaoshuai yuan, hua li, mao ye,Zhongmin Liu*, Chemical Engineering Journal, 329, 35-44, 2017.

16)Synthesis of SAPO-34 nanoaggregates withthe assistance of an inexpensive three-in-onenon-surfactant organosilane, Pengfei Wu, Miao Yang, Wenna Zhang, Shutao Xu, Peng Guo, Pengtian,Zhongmin Liu*, Chemical Communications, 53, 4985-4988, 2017.

17)A green route to methyl acrylate and acrylic acid by an aldol condensation reaction over H-ZSM-35 zeolite catalysts. Zhanling Ma, Xiangang Ma, Hongchao Liu, Yanli He, Wenliang Zhu*,Xinwen Guo,Zhongmin Liu*, Chemical Communications, 53(65): 9071-9074, 2017.

18)Advances in Catalysis for Methanol-to-Olefins Conversion, Shutao Xu, Yuchun Zhi, Jingfen Han, Wenna Zhang, Xinqiang Wu, Tantan Sun, Yingxu Wei,Zhongmin Liu*,Advances in Catalysis, 61, 37 -122,2017.

19)Interconnected Hierarchical ZSM-5 with Tunable Acidity Prepared by a Dealumination-Realumination Process: A Superior MTP Catalyst. Junjie Li, Min Liu, Xinwen Guo, Shutao Xu, Yingxu Wei,Zhongmin Liu, Chunshan Song*, ACS Applied Materials & Interfaces. 9(31): 26096-26106, 2017.

20)Direct structural identification of carbenium ions and investigation of host-guest interaction in the methanol to olefins reaction obtained by multinuclear NMR correlations. Dong Xiao, Shutao Xu, Xiuwen Han, Xinhe Bao,Zhongmin Liu, Fraderic Blanc*, Chemical Science, 8(12): 8309-8314, 2017.

21)Direct Mechanism of the First Carbon–Carbon Bond Formation in the Methanol-to-Hydrocarbons Process, Xinqian Wu, Shutao Xu, Wenna Zhang, Jindou Huang, Jinzhe Li, Bowen Yu, Yingxu Wei,Zhongmin Liu*, Angewandte Chemie International Edition, 129(31), 9167-9171, 2017.

22)Database Mining of Zeolite Structures.Peng Guo，Nana Yan, Lei Wang, Xiaodong Zou,CRYSTAL GROWTH & DESIGN, 17:6821-6835,2017.

23)Comparative investigation of the deactivation behaviors over HZSM-5 and HSAPO-34 catalysts during low-temperature methanol conversion. Liang Qi, Jinzhe Li, Linying Wang, Chan Wang, Lei Xu*,Zhongmin Liu*, Catalysis Science & Technology, 7(10): 2022-2031, 2017.

24)Unusual deactivation of HZSM-5 zeolite in the methanol to hydrocarbon reaction. Liang Qi, Jinzhe Li, Linying Wang, Lei Xu*,Zhongmin Liu*, Catalysis Science & Technology, (4): 894-901, 2017.

25)A green route for methanol carbonylation. Youming Ni, Lei Shi, Hongchao Liu, Wenna Zhang, Yong Liu, Wenliang Zhu*,Zhongmin Liu*, Catalysis Science & Technology, 7(20): 4818-4822, 2017.

26)Low Temperature CO2 Methanation: ZIF-67-Derived Co-Based Porous Carbon Catalysts with Controlled Crystal Morphology and Size. Wenhui Li, Anfeng Zhang, Xiao Jiang, Chen Chen,Zhongmin Liu, Chunshan Song*, Xinwen Guo*, ACS Sustainable Chemistry & Engineering, 5(9): 7824-7831, 2017.