1)Achieving high conversion of syngas toaromatics. Yi Fu, Youming Ni, Zhiyang Chen, Wenliang Zhu*,Zhongmin Liu*, Journal of Energy Chemistry, 66:597-602, 2022.
2)Insights into effects of ZrO2crystal phase on syngas-to-olefin conversion over ZnO/ZrO2and SAPO-34 composite catalysts. Zhaopeng Liu,Youming Ni, Zhongpan Hu, Yi Fu, Xudong Fang, Qike Jiang, Zhiyang Chen, Wenliang Zhu*,Zhongmin Liu*. CHINESE JOURNAL OF CATALYSIS, 43(3):877-884 .2022.
3)A dual-bed catalyst for producing ethylene and propylene from syngas. Youming Ni, Zhaopeng Liu, Peng Tian, Zhiyang Chen, Yi Fu, Wenliang Zhu*,Zhongmin Liu*, Journal of Energy Chemistry, 66:190-194, 2022.
4)Investigation of the Ethanol Dehydration to Ethene Reaction on H-SSZ-13 Molecular Sieve by in situ Solid-state NMR Spectroscopy. Shu Zeng, Shutao Xu*, Yingxu Wei,Zhongmin Liu*,Chinese Journal of Magnetic Resonance, 39(2):123-132, 2022.
5)Reaction rate enhancement by reducing surface diffusion barriers of guest molecules over ZSM-5 zeolites: a structured illumination microscopy study. Shichao Peng, Hua Li*, Wenjuan Liu, Junyi Yu, Zhaochao Xu, Mao Ye*,Zhongmin Liu, Chemical Engineering Journal, 430(1):132760, 2022.
6)Hydrothermal synthesis of Siliceous Beta Zeolite by an inorganic cation-driven strategy and its crystallization mechanism. Dongxia Luo, Quanyi Wang, Dong Fan, Miao Yang, Benhan Fan, Kaipeng Cao, Shutao Xu, Peng Tian*,Zhongmin Liu*, Microporous and Mesoporous Materials, 329:111557, 2022.
7)Study on the Framework Aluminum Distributions of HMOR Zeolite and Identification of Active Sites for Dimethyl Ether Carbonylation Reaction. Jin Zhang, Xiangnong Ding, Hongchao Liu, Dong Fan, Shutao Xu*, Yingxu Wei,Zhongmin Liu,ACTA CHIMICA SINICA, 80(5):590-597, 2022.
8)Quantitatively mapping the distribution of intrinsic acid sites in mordenite zeolite by high-field23Na solid-state nuclear magnetic resonance. Benhan Fan, Wenna Zhang, Pan Gao, Guangjin Hou, Rongsheng Liu,Shutao Xu*, Yingyu Wei,Zhongmin Liu, The Journal of Physical Chemistry Letters, 13(23):5186–5194, 2022.
9)Dynamic evolution of Al species in the hydrothermal dealumination process of CHA zeolite. Benhan Fan, Dali Zhu, Linying Wang,Shutao Xu*, Yingyu Wei,Zhongmin Liu, Inorganic Chemistry Frontiers, 9(14):3609-3618, 2022.
10)Investigation on the Differences of the Alcohols Conversion over H-SAPO-34 Zeolite.Yating Gu, Wenna Zhang, Jingfeng Han, Caiyi Lou, Huihui Chen, Shutao Xu, Yingxu Wei*,Zhongmin Liu*,Chinese Journal of Magnetic Resonance, 39(4):428-438, 2022.
11)Multiscale dynamical cross-talk in zeolite-catalyzed methanol and dimethyl ether conversions.Shanfan Lin ,Yuchun Zhi, Zhiqiang Liu, Jiamin Yuan, Wenjuan Liu, Wenna Zhang, Zhaochao Xu, Anmin Zheng, Yingxu Wei*,Zhongmin Liu*, National Science Review, 9(9):1-12, 2022.
12)Atomic insight into the local structure and microenvironment of isolated Co-motifs in MFI zeolite frameworks for propane dehydrogenation. Zhongpan Hu, Gangqiang Qin,Jingfeng Han, Wenna Zhang, Nan Wang, Yijun Zheng, Qike Jiang, Te Ji, Zhongyong Yuan,Jianping Xiao*,Yingxu Wei*,Zhongmin Liu*, Journal of the American Chemical Society, 144(27):12127-12137, 2022.
13)Dynamic evolution of zeolite framework and metal-zeolite interface. Zhongpan Hu, Jingfeng Han,Yingxu Wei*,Zhongmin Liu*, ACS Catalysis, 12:5060-5076, 2022.
14)Revealing the roles of hydrocarbon pool mechanism in ethanol-to-hydrocarbons reaction. Shu Zeng, Wenna Zhang, Junjie Li, Shanfan Lin, Shutao Xu*, Yingxu Wei,Zhongmin Liu. Journal of Catalysis, 413:517–526, 2022.
15)Regulation of product distribution in CO2hydrogenation to light olefins. Wenna Zhang, Yingxu Wei*, Chem., 8:1170–1186, 2022.
16)Using HCOONH4as a Reductant and Nitrogen Source in Converting PhCHO to Imine via a Continuous Condensation-Reduction Mechanism. Siqi Li, Jianmin Lu, Zhipeng Huang, Shutao Xu, Chaofeng Zhang, Feng Wang. ChemistrySelect, 7:e202203482, 2022.
17)Boosting molecular diffusion following the generalized Murray’s Law by constructing hierarchical zeolites for maximized catalytic activity. Minghui Sun, Shushu Gao, Zhiyi Hu, Tarek Barakat, Zhan Liu, Shen Yu, Jiamin Lyu, Yu Li, Shutao Xu, Huali Chen*, Baolian Su*. National Science Review, nwac236, 10.1093/nsr/nwac236, 2022.
18)Para-Xylene productivity from syngas over Co2C nanoprisms combined with versatile zeolites. Jingfeng Han, Zhongpan Hu,Yingxu Wei*, Chem Catalysis, 2:647-666, 2022.
19)Synthesis of mesoporous high-silica zeolite Y and their catalytic cracking performance. Wenhao Cui, Dali Zhu, Juan Tan, Nan Chen, Dong Fan, Juan Wang, Jingfeng Han, Linying Wang*, Peng Tian*,Zhongmin Liu, CHINESE JOURNAL OF CATALYSIS, 43(7):1945-1954, 2022.
20)Designed Synthesis of MOR Zeolites using Gemini-type Bis(methylpyrrolidinium) Dications as Structure Directing Agents and Their DME Carbonylation Performance. Nan Chen, Jin Zhang, Yating Gu, Wenna Zhang, Kaipeng Cao, Wenhao Cui, Shutao Xu, Dong Fan*, Peng Tian*,Zhongmin Liu, Journal of Materials Chemistry A, 10(15):8334-8343, 2022.
21)Conversion of methanol to propylene over SAPO‐14: Reaction mechanism and deactivation. Ye Wang, Jingfeng Han, Nan Wang, Bing Li, Miao Yang*, Yimo Wu, Zixiao Jiang, Yingxu Wei, Peng Tian,Zhongmin Liu*, CHINESE JOURNAL OF CATALYSIS, 43(8):2259-2269, 2022.
22)Recognizing the Important Role of Surface Barriers in MOR Zeolite Catalyzed DME Carbonylation Reaction. Kaipeng Cao, Dong Fan, Mingbin Gao, Benhan Fan, Nan Chen, Linying Wang, Peng Tian*,Zhongmin Liu*, ACS Catalysis, 12:1-7, 2022.
23)Progress in Seed-assisted Synthesis of (Silico)Aluminophosphate Molecular Sieves. Xiaosi Zhang, Miao Yang*, Peng Tian,Zhongmin Liu*, Chemical Research in Chinese Universities, 38 (1):1-8, 2022.
24)Realizing Fast Synthesis of High-Silica Zeolite Y with Remarkable Catalytic Performance. Dali Zhu, Linying Wang, Wenna Zhang, Dong Fan, Jinzhe Li, Wenhao Cui, Shengjun Huang, Shutao Xu, Peng Tian*,Zhongmin Liu*, AngewandteChemie International Edition, 61 (23):e202117698, 2022.
25)High-silica zeolite Y: seed-assisted synthesis, characterization and catalytic properties. Dali Zhu, Linying Wang*, Wenhao Cui, Juan Tan*, Peng Tian*,Zhongmin Liu, Inorganic Chemistry Frontiers, 9(10):2213-2220, 2022.
26)Acid Properties of SAPO-34 Molecular Sieves with Different Si Contents Templated by Various Organic Structure-Directing Agents. Lei Wang, Tantan Sun, Nana Yan, Xiaona Liu, Chao Ma, Shutao Xu, Peng Guo*, Peng Tian,Zhongmin Liu*,Acta Phys. -Chim. Sin., 38(4) : 57-64, 2022 .
27)Increasing the Number of Aluminum Atoms in T3Sites of a Mordenite Zeolite by a Low-Pressure SiCl4Treatment to Catalyze Dimethyl Ether Carbonylation. Rongsheng Liu, Benhan Fan, Wenna Zhang, Linying Wang, Liang Qi, Yingli Wang, Shutao Xu, Zhengxi Yu*, Yingxu Wei,Zhongmin Liu*,Angewandte Chemie International Edition, 61(18): e202116990, 2022.
28)Selective Removal of Acid Sites in Mordenite Zeolite by Trimethylchlorosilane Silylation to Improve Dimethyl Ether Carbonylation Stability. Rongsheng Liu, Shu Zeng, Tantan Sun, Shutao Xu, Zhengxi Yu*, Yingxu Wei,Zhongmin Liu*, ACS Catalysis, 12:4491−4500, 2022.
29)Dynamic Evolution of Aluminum Coordination Environments in Mordenite Zeolite and Their Role in the Dimethyl Ether (DME) Carbonylation Reaction. Rongsheng Liu, Benhan Fan, Yuchun Zhi, Chong Liu, Shutao Xu, Zhengxi Yu*,Zhongmin Liu*, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 61(42):e202210658, 2022.
30)Highly Enhanced Aromatics Selectivity by Coupling of Chloromethane and Carbon Monoxide over H-ZSM-5. Xudong Fang, Hongchao Liu*, Zhiyang Chen, Zhaopeng Liu, Xiangnong Ding, Youming Ni, Wenliang Zhu*,Zhongmin Liu*, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 61:e202114953, 2022.
31)Simultaneously Achieving High Conversion and Selectivity in Syngas-to-Propane Reaction via a Dual-Bed Catalyst System. Zhaopeng Liu, Youming Ni, Mingbin Gao, Linying Wang, Xudong Fang, Jie Liu, Zhiyang Chen, Nan Wang, Peng Tian, Wenliang Zhu*,Zhongmin Liu*, ACS Catalysis,12:3985-3994, 2022.
32)Highly Selective Carbonylation of CH3Cl to Acetic Acid Catalyzed by Pyridine-Treated MOR Zeolite.Xudong Fang,Fuli Wen,Xiangnong Ding,Hanbang Liu,Zhiyang Chen,Zhaopeng Liu,Hongchao Liu*,Wenliang Zhu*,Zhongmin Liu, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, e202203859, 2022.
33)Nano-sized H-ZSM-5 Zeolite Catalyzes Aldol Condensation Reaction to Prepare Methyl Acrylate and Acrylic Acid. Mingguan Xie, Youming Ni*, Xudong Fang, Hongchao Liu, Zhiyang Chen, Xiangnong Ding, Linying Wang, Wenliang Zhu*, Catalysis Science & Technology,12:5171-5177, 2022.
34)Insights into the size effect of ZnCr2O4spinel oxide in composite catalysts for conversion of syngas to aromatics. Yi Fu, Youming Ni, Wenhao Cui, Xudong Fang, Zhiyang Chen, Zhaopeng Liu, Wenliang Zhu*,Zhongmin Liu*, Green Energy & Environment,1-8,2022.
35)Activated carbon supported nitrogen-containing diheterocycle mercury-free catalyst for acetylene hydrochlorination. Xingzong Dong, Guangye Liu, Zhaoan Chen, Quan Zhang, Yunpeng Xu*,Zhongmin Liu, Molecular Catalysis, 525:112366, 2022.
36)Mixed-ligand metal–organic frameworks with coordinatively un-saturated Co(II) and Ni(II) sites for regenerable O2-selective ad-sorption over N2. Hanbang Liu,Liping Yang, Danhua Yuan, Guangye Liu, Jiacheng Xing, Yunpeng Xu*,Zhongmin Liu, CHEMICAL ENGINEERING JOURNAL, 450:138214, 2022.
37)Effect of trace water on the 1,2-dichloroethane cracking over zeolite catalysts. Quan Zhang, Wei Huang, Jiacheng Xing, Xingzong Dong, Guangye Liu, Yunpeng Xu*,Zhongmin Liu, Ind. Eng. Chem. Res., 61(43):15803-15809, 2022.
38)Flow Reconstruction and Prediction Based on Small Particle Image Velocimetry Experimental Datasets with Convolutional Neural Networks. Likun Ma, Sina Kashanj, Shuliang Xu, Jibin Zhou*, David S Nobes, Mao Ye*, Industrial & Engineering Chemistry Research, 61(24):8504-8519, 2022.
39)Drag correlations for flow past monodisperse arrays of spheres and porous spheres based on symbolic regression: Effects of permeability. Likun Ma,Qiang Guo,Xue Li, Shuliang Xu, Jibin Zhou, Mao Ye*,Chemical Engineering Journal, 445: 136653,2022.
40)Exploring the Influence of Inter- and Intra-crystal Diversity of Surface Barriers in Zeolites on Mass Transport by Using Super-Resolution Microimaging of Time-Resolved Guest Profiles. Shichao Peng, Yiwei Xie, Linying Wang, Wenjuan Liu, Hua Li*, Zhaochao Xu, Mao Ye*,Zhongmin Liu, Angewandte Chemie International Edition, 61:e202203903, 2022
41)Towards a general correlation for minimum fluidization velocity in gas-fluidized beds: based on a database mining from the literature. Jibin Zhou, Mao Ye*,Zhongmin Liu, Chemical Engineering Science, 251:117455, 2022.
42)On the concentration models in electrical capacitance tomography for gas-fluidized bed measurements. Anqi Li, Shuanghe Meng*, Kai Huang, Wuqiang Yang, Mao Ye*, Chemical Engineering Journal, 435:134989, 2022.
43)Quantitative principle of shape-selective catalysis for a rational screening of zeolites for methanol-to-hydrocarbons. Mingbin Gao, Hua Li, Junyi Yu, Mao Ye*,Zhongmin Liu*, AIChE Journal, 68: e17881,2022
44)Facile precipitation microfluidic synthesis of Monodisperse and inorganic hollow microspheres for Photocatalysis. Chunlin Li, ZhiyuWang, Hua Xie, Jun Bao, Yingxu Wei, Bingcheng Lin,Zhongmin Liu, JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY, 97(5):1215-1223, 2022.
45)Development Path of Energy Science and Technology under “Dual Carbon” Goals: Perspective of Multi-energy System Integration. Rui Cai, Hanxiong Zhu, Wanju Li, Yu Xiao,Zhongmin Liu*,China Academyic Journal Electronic Publishing House, 37(4):502-510, 2022.
46)Thoughts on Regional Path of Promoting Comprehensive Demonstration of Low-carbon Energy Technology under “Dual Carbon” Goals. Hanxiong Zhu, Yi Wang, Jia Ru, Daquan Cao, Xiaoguang Ren, Jingdong He, Haisheng Chen, Rui Cai,Zhongmin Liu*,China Academyic Journal Electronic Publishing House, 37(4):559-566, 2022.
47)Defect engineering over Co3O4catalyst for surface lattice oxygen activation and boosted propane total oxidation. Wenjun Zhu, Xingbao Wang, Chuang Li, Xiao Chen, Wenying Li,Zhongmin Liu*, Changhai Liang*, JOURNAL OF CATALYSIS, 413:150-162, 2022.
48)Quantitative evaluation method of energy security under dual carbon target. Jinqiang Liang, Danzhu Liu, Shuliang Xu*, Mao Ye*,Zhongmin Liu,China Academyic Journal Electronic Publishing House , 41(3) : 1622-1633, 2022.
49)Origin of the exceptional selectivity of NaA zeolite for the radioactive isotope90Sr2+. Wenfeng Hao, Nana Yan, Miao Xie, Xiaojun Yan, Xiliang Guo, Pu Bai, Peng Guo*, Tao Cheng*, Wenfu Yan*,Inorganic Chemistry Frontiers, 9(23):6258-6270, 2022.
50)《The Chemical Transformations of C1 Compounds》(Synthesis of Olefins from CH3OH,71-126,Wenna Zhang ,Yingxu Wei,Zhongmin Liu),2022,Edited by Xiao-Feng Wu, Buxing Han, Kuiling Ding, and Zhongmin Liu, Wiley-Vch,ISBN: 9783527348954.
