1）Forecasting Methanol-to-olefinsProduct Yields based on Relevance Vector Machine with Hybrid Kernel and Rolling-windows. Wenyang Wang, Nan He, Jie Liu, Muxin Chen, Jibin Zhou, Tao Zhang, Mao Ye*, Zhongmin Liu, Chemical Engineering Science, 301: 120656, 2025.

2）Process Safety Enhancementin Maritime Operations: A Bayesian Network-Based Risk Assessment Framework for the RCEP Region. Wenyang Wang*, Junrui Zhao, Yulihe Chen, Peng Shao, Peng Jia, Process Safety and Environmental Protection, 194:1235-1256, 2025.

3）Hydrothermal stability of Zn-ZSM-5 and its effect on the coupling reaction of n-butane and CO2.Xuke Sun, Rongsheng Liu, Gaili Fan, Zhengxi Yu*，CHEMICAL INDUSTRY AND ENGINEERING, 42(5):24-32, 2025.

4）DNL-17:A Small-Pore Aluminophosphate in ABC‑6Family with 24 Stacking Layers Unraveled by Three-Dimensional Electron Diffraction. Chenyang Nie, Yuanhao Li, Xiaona Liu, Nana Yan, Chao Ma, Jiahui Zhu, Linlin Hao, Peng Guo*, Zhongmin Liu, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 147(6):5440-5448, 2025.

5）Water-ControlledCoking Dynamics during High-pressure Methanol-to-Olefines Reaction over SAPO-34. Chengwei Zhang, Xinqiang Wu*, Yanan Zhang, Li Wang, Yan Jin, Mingbin Gao, Mao Ye, Yingxu Wei*, Zhongmin Liu, ACS Catalysis, 15(3): 1553−1562, 2025.

6）CO2-enhancedalkanearomatizationoverCu-ZSM-5 zeolite:Insights into active sites and catalytic performance.Gaili Fan, Rongsheng Liu, Yang Zhao, Enze Chen, Siyang Yan, Jingfeng Han, Jiaxu Liu*, Zhengxi Yu*, Zhongmin Liu*,Journal of Energy Chemistry,106: 600-607, 2025.

7）Methanolto Olefins(MTO): Understanding and Regulating Dynamic Complex Catalysis.Shanfan Lin, Hua Li, Peng Tian, Yingxu Wei*, Mao Ye*, Zhongmin Liu*,Journal of the American Chemical Society, 147(14):11585-11607，2025.

8）EfficientCarbonIntegrationof CO₂ in Propane Aromatization over Acidic Zeolites.Cheng Li, Xudong Fang*, Bin Li, Siyang Yan, Zhiyang Chen, Leilei Yang, Shaowen Hao, Hongchao Liu, Jiaxu Liu*, Wenliang Zhu*, Chinese Journal of Catalysis, 72:314-322, 2025.

9）Gangue-basedCu/SSZ-13zeolites with controllable Al distributionas robust selective catalytic reduction (SCR) catalysts. Tongrui Liu, Linying Wang, Linhai He, Huihui Chen, Dong Fan, Dali Zhu, Miao Yang, Peng Tian*, Zhongmin Liu*,Chemical Engineering Journal, 514:163003,2025.

10）Coupling ofmethanoland long chain alkanes on molecular sieves with CHA structures.Chuang Yang, Kangjun Wang, Jinzhe Li*, Zhongmin Liu*,Journal of Fuel Chemistry and Technology, 54(22):20250054, 2025.

11）Co-reactionofMethanoland Alkanes with Different Carbon Numbers over Microsphere Catalysts.Mingwei Peng, Lei Shi*, Jinzhe Li*, Zhongmin Liu*, Frontiers of Chemical Science and Engineering, 19(12):120, 2025.

12）Pt migration-lockup in zeolite forstable propanedehydrogenation catalyst. Zhikang Xu, Mingbin Gao, Yao Wei, Yuanyuan Yue, Zhengshuai Bai, Pei Yuan, Paolo Fornasiero, Jean-Marie Basset, Bingbao Mei, Zhongmin Liu, Haibo Zhu*, Mao Ye*, Xiaojun Bao*. Nature, 643(8072):691-698, 2025.

13）The Role ofC1 Species in the Methanol-to-Hydrocarbons Reaction:beyond Merely being Reactants. Yanan Zhang, Wenna Zhang *, Chengwei Zhang, Linhai He, Shanfan Lin, Shutao Xu , Yingxu Wei *, Zhongmin Liu. Chinese Journal of Catalysis，71:169-178，2025.

14）Ethylene PretreatmentEnhances Ethylene Adsorption and Separation over Cu@SAPO-RHO Zeolite.Ruobing Bai, Nana Yan, Guangyuan He, Yingchun Ye, Risheng Bai, Dan Li, Peng Guo,Donghai Mei, Wenfu Yan*, Jihong Yu*,Angewandte Chemie International Edition, 64: e202501053, 2025.

15）Pore Engineeringin Isoreticular Titanium-Isophthalate Coordination Polymers. Qingqing Yan, Chenyang Nie, Valentin Diez Cabanes, Fu-An Guo, Yafei Du, Hailun Xia, Hao Wang*, Guillaume Maurin*, Peng Guo*, Sujing Wang*, Angewandte Chemie International Edition, 64:e202503618, 2025.

16）Toward RealisticSimulations of Zeolite Catalytic Processes: A Mini Review. Lulu Li, Xiaofang Xu, Mao Ye*, Zhongmin Liu, The Journal of Physical Chemistry, 129(1):24-36, 2025.

17）Revealing the CO2adsorption blocking mechanism in flexible low-silica small-pore zeolites via three-dimensional electron diffraction. Jian Guo, Chenyang Nie, Shitai Li, Nana Yan*, Peng Guo*, Zhongmin Liu, Chem. Commun., 61(12):2568-2571, 2025.

18）Revealing the CrucialRoles of Pore Interconnectivity between Zeolitic and Nonzeolitic Components in Enhancing Diffusion and Catalytic Efficiency of Industrial Zeolite-Based Catalysts. Yipu Xu, Peng Peng*, Hanlixin Wang, Hao Xiong, Zhaochao Xu, Xiao Chen, Yanpeng Li, Anmin Zheng, Yingxu Wei, Zifeng Yan*, Shutao Xu*, Zhongmin Liu, Journal of the American Chemical Society, 147(22):18550-18562, 2025.

19）Dimethoxymethanecarbonylation and disproportionation over extra‐large pore zeolite ZEO‐1: Reaction network and mechanism. Shaolei Gao, Peng Lu, Liang Qi*, Yingli Wang, Hua Li, Mao Ye, Valentin Valtchev, Alexis T. Bell, Zhongmin Liu*, Chinese Journal of Catalysis, 68:230-245, 2025.

20）In-line NMR guidedorthogonal transformation of real-life plastics. Meiqi Zhang, Yida Zhou, Ruochen Cao, Shuheng Tian, Yuchen Jiao, Zhenbo Guo, Maolin Wang, Hongpeng Peng, Bo Sun, Bingjun Xu, Meng Wang*, Shutao Xu*, Ding Ma*, Nature, 643: 395-403, 2025.

21）TargetedModificationof Zeolitesfor Exceptionally Active and Selective Generation of PX and Light Olefins from Methanol−Toluene Co-Conversion. Yimo Wu, Nan Wang, Enze Chen, Haohao Feng, Dong Fan, Yang Yu, Li Wang, Te Ji, Zhengxi Yu, Jingfeng Han*, Yingxu Wei, Zhongmin Liu*, ACS Catalysis, 15(5):4147-4159, 2025.

22）Synergyprincipleof singleactivecenters and microenvironment for Cr-MFI catalyzed alkane dehydrogenation.Zhongpan Hu, Gangqiang Qin, Jingfeng Han, Yijun Zheng, Zhen Liu, Yong Jiang, Xiaozhi Su, Te Ji, Min Li, Zhongyong Yuan, Jianping Xiao*, Svetlana Mintova, Yingxu Wei*, Zhongmin Liu*, National Science Review, 12:nwf405, 2025.

23）Construction ofzeoliteframework-anchored Rh-(O-Zn)x sites for ethylene hydroformylation. Haocheng Hu, Wenhao Cui, Mingbin Gao, Linying Wang, Liang Qi*, Wenfu Yan, Peng Tian *, Zhongmin Liu*, American Chemical Society, 147:34381-34394, 2025.

24）Dynamic Interconversionof Ga(Ⅲ) and GaHx in Ga-MFI Zeolites for Efficient CO2-Cyclohexane Coupling Conversion to Aromatics. Haohao Feng, Zhongpan Hu, Enze Chen, Yimo Wu, Min Li, Jingfeng Han*, Yingxu Wei, Zhongmin Liu*, Journal of the American Chemical Society, 147:32915-32923, 2025.

25）UnconventionalhexagonalopenPrussian blue analog structures.Jinwen Yin, Jing Wang, Mingzi Sun, Yajie Yang, Jia Lyu, Lei Wang, Xinglong Dong, Chenliang Ye, Haibo Bao, Jun Guo, Bo Chen, Xichen Zhou, Li Zhai, Zijian Li, Zhen He, Qinxin Luo, Xiang Meng, Yangbo Ma, Jingwen Zhou, Pengyi Lu, Yunhao Wang, Wenxin Niu, Zijian Zheng, Yu Han, Daliang Zhang, Shibo Xi, Ye Yuan*, Bolong Huang*, Peng Guo*, Zhanxi Fan*,Nature Communications, 16:370, 2025.

26）Hybrid MicrometerSeed-Assisted Synthesis of Submicron Rectangular SAPO-34/18 Intergrowth Zeolites with Enhanced Methanol-to-Olefin Conversion. Chengguang Yang, Dong Fang, Xing Yu*, Meng Lyu, Xianni Bu, Hao Wang, Xinnan Lu, Yida Zhou, Shutao Xu*, Peng Gao*, Industrial & Engineering Chemistry Research, 64(20):9951-9959, 2025.

27）Asymmetric rotationsslow down diffusion under confinement. Zhiqiang Liu*, Xun Kan, Mingbin Gao, Yi Ji, FangxiuYe, Jingyi Tan, Fengqing Liu, JiaminYuan, Xiaomin Tang, Haohan Li, Pan Gao, JiaaoXue, Qun Cai, NareshC.Osti, NiinaH.Jalarvo, Cheng Li, Yongcun Zou, Yi Li , ShutaoXu, Guangjin Hou*, Mao Ye*, Fujian Liu*, Anmin Zheng*, Nature Communications, 16(1):DOI10.1038/s41467-025-57242-6, 2025.

28）Shape-selectivecatalysis in cavity-type molecular sieves: cavity-controlledcatalytic principle. Shushu Gao, Fangxiu Ye, Shutao Xu*, Yingxu Wei*, Zhongmin Liu, Chemical Communications, 61(18):3636-3648, 2025.

29）Cost-efficientphosphor materials with defect-induced luminescence based on sodium chloride and potassium chloride. Xue Yang, Tao Xiong, Yida Zhou, Shutao Xu, Zongqing Jin, Guanjun Xiao, Bo Zou, Qingqin Ge, Nannan Shi, Cheng Sun* ,Ting Wang*, Yinan Zhang*, Applied Materials Today, 44:102736, 2025.

30）Zeolite compositeprepared by quasi-in situ interzeolite conversion approach. Ruizhe Zhang, Bo Wang, Jiani Xu, Honghai Liu, Hongjuan Zhao, Jiujiang Wang, Shutao Xu, Shunsuke Asahina, Francesco Dalena, Camille Longue, Benoit Louis, Ludovic Pinard, Simona Moldovan, Zhengxing Qin*, Xionghou Gao*, Svetlana Mintova*, Chem Catalysis, 5:101298, 2025.

31）Bio-based piperidinesas liquid organic hydrogen (deuterium) carrier over Pd catalysts. Zihang Yin, Sicong Ma, Yanwei Cao*, Lin Chen, Zhipan Liu, Jing Niu, Fangxiu Ye, Shutao Xu, Long Pan*, Lin He*, Applied Catalysis B: Environment and Energy,377:125504, 2025.

32）A High-PressureNMR Tube for PFG Diffusion Studies: Revealing the Specific Confinement in RHO Zeolite. Caiyi Lou, Fangxiu Ye, Shutao Xu*, Yingxu Wei, Zhongmin Liu,CHEMICAL RESEARCH IN CHINESE UNIVERSITIE, DOI:10.1007/s40242-025-5145-2, 2025.

33）Aluminum speciationidentification reveals water interactions in silicoaluminophosphate zeolites. Caiyi Lou, Wenna Zhang, Pan Gao, Yida Zhou, Yuchun Zhi, Fangxiu Ye, Wenfu Yan, Shutao Xu*, Yingxu Wei, Zhongmin Liu,PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 122(40): e2507802122, 2025.

34）Isolated Cr ActiveCenters in the Beta Zeolite Framework for Propane Dehydrogenation. Zhiqiang Qiu, Zhongpan Hu*, Junyu Liu, Jingfeng Han, Shiyu Xia, Min Li, Yang Zhao, Jingrun Chen, Svetlana Mintova, Yingxu Wei*, Zhongmin Liu, ACS Catalysis, 15:16539-16549, 2025.

35）Three-dimensionalreconstructionof fluidized beds from limited measurementsvia a physics guided cGAN. Xue Li, Jie Xiang, Ting Zhang, Cheng Zhang, Anqi Li, Mao Ye*, Zhongmin Liu, Smart Chemical Engineering, 1(1):2,2025.

36）Precursor and Dual-TemplateAssisted Synthesis of Highly Acidic SAPO-17 Molecular Sieve: Excellent NH₃-SCR Activity of Cu-Exchanged Forms. Ye Wang, Pan Gao, Dan Zhao, Tongrui Liu, Sitong Zhou, Miao Yang*, Shiping Liu, Bing Li, Yida Zhou, Wenhao Cui, Guangjin Hou, Peng Tian, Zhongmin Liu*, Chinese Journal of Catalysis, 78:279-291, 2025.

37）From lab to fab: A large language model for chemical engineering. Jibin Zhou, Feiyang Xu, Zhijun Chang, Duiping Liu, Lulu Li, Jian Cui, Yi Li, Xin Li*, Li Qian, Zhixiong Zhang, Guoping Hu, Mao Ye*, Zhongmin Liu, Chinese Journal of Catalysis, 73:159–173,2025.

38）Identification ofHighly Active Co−O−Zn Sites inSilanolNests for n‑Butane Cascade Dehydrogenation to 1,3-Butadiene.Yanfei Zhang*, Tingshu Yang, Jiaochan Hu, Linying Wang, Mingbin Gao*, Liang Qi, Alexis T. Bell*, Peng Tian*, Zhongmin Liu, Journal of the American Chemical Society, 147:42110-42122, 2025.

39）Spatialconfinementeffect of zeolite Silicalite-1 on dispersing high loading Cu nanoparticles and their superior ethanol dehydrogenation catalytic performance.Yanfei Zhang*, Haocheng Hu, Zeyu Yang, Shiping Liu, Tingshu Yang, Linying Wang, Yiming Sun, Xiaofeng Wang*, Qingbo Li, Peng Tian*,Applied Catalysis B: Environment and Energy, 367:125099, 2025.

40）Molecular routesof coke species on HZSM-5 zeolite with atomic-resolution structural identification.Yingjun He, Yi Zheng, Yiyao Chen, Jing Niu, Jingrui Chen, Guoju Yang, Wenna Zhang, Xianwen Zhang, Shutao Xu, Wenfu Yan, Mengxi Liu*, Yuchun Zhi*, Yingxu Wei, Xiaohui Qiu, Zhongmin Liu*, Journal of the American Chemical Society, 147:41379-41389, 2025.

41）Effect of formaldehyde on coke-induced deactivation in HZSM-5 zeolite-catalyzed toluene and benzene conversion reaction.Yingjun He, Yiyao Chen, Shanfan Lin, Yuchun Zhi*,Yingxu Wei, Zhongmin Liu，Low-Carbon Chemistry and Chemical Engineering，DOI: 10.12434/j.issn.2097-2547.20250183.

42）The Role of Reducibilityof PtGaOx-Based Catalysts for Efficient and Durable Propane Dehydrogenation. Kai Wu, Vita A. Kondratenko, Mingxia Zhou, Dmitry E. Doronkin, Stephan Bartling, Qiyang Zhang, Shanlei Han, Xin Jia, Qi Liu, Dong Xiong, Chunming Xu, Guiyuan Jiang*, Dan Zhao*, Uwe Rodemerck, David Linke, Evgenii V. Kondratenko*, Angew. Chem. Int. Ed., 64:e202506704, 2025.

43）Understanding the reaction-inducedrestructuring of CoOx species in silicalite-1 to control selectivity in non-oxidative dehydrogenation of propane. Qiyang Zhang*, Vita A. Kondratenko, Xiangnong Ding, Jana Weiss, Stephan Bartling, Elizaveta Fedorova, Dan Zhao, Dmitry E. Doronkin, Dongxu Wang, Christoph Kubis, Evgenii V. Kondratenko*, Chinese Journal of Catalysis 74:108–119, 2025.

44）OperandoUV-RamanSpectroscopy Tracking the Evolving Intermediates in Hydrocarbon Conversion Over MFI Zeolites. Zixiao Jiang, Jingfeng Han*, Yingxu Wei, Zhongmin Liu*,Journal of Raman Spectroscopy, doi.org/10.1002/jrs.70057, 2025.

45）Innovative Coal-to-OlefinProcess Integrated with Sustainable Renewable Electricity and Green Hydrogen. Jinqiang Liang, Danzhu Liu, Shuliang Xu, Mao Ye*, Ind. Eng. Chem. Res., 64:7115-7125, 2025.

46）Waterinteractionsin molecularsieve catalysis: Framework evolution and reaction modulation. Linhai He, Caiyi Lou, Lu Sun, Jing Niu, Shutao Xu*, Yingxu Wei, Zhongmin Liu*, Chinese Journal of Catalysis, 79:9-31, 2025.

47）Machine-Learning-AidedDiscovery of Methanol-to-Olefins Zeolite Catalysts with Ultra-High Initial Selectivity.Xinyi Wang, Chaoqi Wang, Miao Yang*, Xiaoguang Wang, Yuezhong Zuo, Zhuangzhuang Zhang, Zhuangzhuang Zhang, Yimo Wu, Jingfeng Han, Bing Li, Wei Huang, Limin Ren, Yingxu Wei, Xinmei Liu, Peng Tian, Zhongmin Liu*, Chinese Journal of Catalysis, 81:124-135,2026.

48）CO2Hydrogenationto Acetic Acidand Methyl Acetate via Tandem Catalysis. Songyue Han, Linhai He, Nan Chen, Dong Fan*, Peng Tian*, Zhongmin Liu.Nature communications,16:11250, 2025.待韩松岳上传原文

49）Particle-resolved lattice Boltzmann simulations for sedimentation of catalyst particles with endothermic reaction.Yiqi Song,XueLi*, Mao Ye*, Zhongmin Liu,Chemical Industry and Engineering Progress, 44(5):2984–2996, 2025.

50）Effects ofnoiseon fluidized bed characteristics measurements by electrical capacitance tomography. Kai Huang, Chunlei Pei, Shuanghe Meng, Wuqiang Yang, Hua Li, Mao Ye*, Jinlong Gong*, Chinese Journal of Chemical Engineering, 79:219–233, 2025.

51）A connectivity modelfor the effectivethermal conductivity of a particle-filled system considering interfacial resistances pathways. Xue Li, Yiqi Song, Mao Ye*, Chemical Engineering Science, 306:121259, 2025.

52）Deep Learning Approachfor Morphology Classification and Particle Sizing of Industrial Methanol-to-Olefins (MTO) Catalyst. Qingyu Wang, Duiping Liu, Yong Lu, Jibin Zhou, Xiangang Ma, Mao Ye*, Chinese Journal of Chemical Engineering, 84:1-10, 2025.

53）RegionalDifferencesReflected in Resource Flow in China: Multidimensional Analysis Integrating MRIO and Machine Learning Clustering.Danzhu Liu, Jinqiang Liang, Jibin Zhou, Shuliang Xu*, Mao Ye*, Zhongmin Liu,ACS Sustainable Chemistry & Engineering, 13(24):8878–8893, 2025.

54）Particle-resolved latticeBoltzmann simulations for sedimentation of catalyst particles involving coke deposition. Yiqi Song, Xue Li*, Mao Ye*, Zhongmin Liu, Chemical Engineering Science, 317:122129, 2025.

55）Harnessingstructuredcokein zeolites to boost ethylene yield in methanol-to-olefins by low-temperature regeneration. Guida Li, Jinling Zhang, Shanfan Lin, Yuhan Song, Hua Li, Wenjie Peng, Hanlixin Wang, Zhaochao Xu, Yingxu Wei, Mao Ye*, Zhongmin Liu,AIChE Journal, 71(12):e70083, 2025.

56）Alargelanguagemodel system for the field of chemical engineering technology. Heng Zhang, Jibin Zhou, Feiyang Xu, Jian Cui, Yi Li, Fan Yang, Hao Wang*, Xin Li*, Mao Ye*, arXiv:2509.07034, 2025.计算机会议期刊论文

57）InverseCO2-C2H2Separation on the Low-silica CHA Zeolite ThroughCooperative Cation and Gas Molecule Migration Mechanism.Xiaohe Wang, Da Zheng, Jiatong Guo, Xiaona Liu, Nana Yan*, Guohui Li*, Peng Guo, Zhongmin Liu, Angew. Chem. Int. Ed. e202522386, 2025.

58）Operando UV-Raman spectroscopy tracking of the full-cycle evolution process of methanol conversion catalyzed by SAPO-34. Zixiao Jiang, Jingfeng Han*, Yingxu Wei, Zhongmin Liu*,The Journal of Light Scattering, 2025.

59）A careerincatalysis: Xinhe Bao.Feng Jiao, Rentao Mu, ShutaoXu, Hongyang Liu, Liang Yu, Dunfeng Gao, Yuefeng Song, Dehui Deng, Guoxiong Wang, Heng Zheng, Weixin Huang, Xiulian Pan,Qiang Fu*, Ding Ma*, ACS Catalysis, 15(4): 3061-3084, 2025.

60）Molecular Self-GatingInside a Zeolite Catalyst. Zhiqiang Liu*, Caiyi Lou, JiaminYuan, Xiaomin Tang, Yuzhou Fan, Ji Qi, Rui Zhang, Peng Peng, Guoliang Liu, Shutao Xu*, Anmin Zheng*,Journal of the American Chemical Society, 147(7): 6126-6136, 2025.

61）Bridging the molecularmechanism and industrial processof zeolite-catalyzed methanol conversion to olefins and ethanol using advanced solid-state NMR spectroscopy. Jing Niu, Xinzhi Ding, Shutao Xu*, Yingxu Wei, Zhongmin Liu*. Chemical Society Reviews, 54(14): 6652-6696, 2025.

62）Studies on Structural Engineering and Intercomponent Interactions of Zeolite-Based Industrial Multicomponent Catalysts.Yipu Xu, Shutao Xu*,Yingxu Wei, Zifeng Yan*,Zhongmin Liu,ACTA CHIMICA SINICA, 83(9): 1072-1088, 2025.

63）Insights into the Wastewater-FreeSynthesis of Zeolites.Lifan Deng, Caiyi Lou, Qinming Wu*, Xiaolong Liu, Jing Niu, Xiaohui Du, Shutao Xu*, Liang Wang, Zhongmin Liu, Jihong Yu*, Fengshou Xiao*,Journal of the American Chemical Society, 147(46): 42901-42908, 2025.

64）Boron-InducedRedispersion of Pt Species during Propane Dehydrogenation. Mengyang Liu,Shaobo Han,Wenna Zhang,Bin Gu*, Jingmei Li, Huangzhao Wei, Xin Rong, Chenglin Sun*, ACS Catalysis, 15(5):4251-4258, 2025.

65）Controllable Synthesisof Hollow Mesoporous ZSM‑5 with Improved Catalytic Performance for Tetralin Hydrocracking to Light Aromatics. Haoqing Zhang, Limin Zhang, Mengdi Wang, Keyan Li*, Anfeng Zhang, Hao Wang, Jiaming Wu, Shanfan Lin, Duo Li, Chunshan Song, Xinwen Guo*, Industrial&Engineering Chemistry Research, 64:4330-4341, 2025.

66）Copper NanoparticlesStabilized by Adjacent Methyl Groups on Silica for Durable Catalysts.Lujie Liu, Jiaye Lu, Mingjie Liu, Hong Wang, Jinyang Zhang, Guangxian Xu, Zhandong Wang, Yang Liu, Jie Liang, Xinhua Gao, Yating Lv, Yida Zhou, Shutao Xu, Lina Li*, Xiaoming Cao*, Liang Wang*,CCS Chem, DOI: 10.31635/ccschem.025.202505638, 2025.

67）Decoupledimpactof acidity and mesoporosity on catalyst deactivation during glycerol dehydration over ZSM-5 zeolites.Yonghua Yu, Jing Niu, Dazhi Zhang*, Shutao Xu, Fang Lu, Jiaxu Liu, Shengjun Huang*, New J. Chem., DOI: 10.1039/d5nj03310a, 2025.

68）Site-SpecificCarbonylationof Dimethoxymethane over Brønsted Acids in the Opened Sodalite Cages of FAU Zeolite. Youming Ni, Xingwang Gong, Wenna Zhang, Hua Li, Yingying Sheng, Shutao Xu*, Yingxu Wei, Wenliang Zhu*, Zhongmin Liu,Journal of the American Chemical Society, 147(49):44950-44961, 2025.

69）Hierarchically shortenedb-axis ZSM-5 nanosheet endows super catalytic stability for methanol-to-hydrocarbons reaction. Zhan Liu, Yingjun He, Zhiyi Hu*, Jiamin Lyu, Shen Yu, Yuhang Song, Xiaoqiang Liao, Zhiwen Yin, Minghui Sun, Yuchun Zhi, Lihua Chen*, Baolian Su*, Chemical Engineering Journal, 522:167120, 2025.

70）Methanol-butene coupling reaction on ZSM-5 catalyst.Binghan Li, Chuang Yang, Mingwei Peng, Jinzhe Li*, Zhongmin Liu，Industrial Catalysis，33(1):14-20, 2025.