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2.J. Niu#, X.Z. Ding#, S.T. Xu*, Y.X. Wei, Z.M. Liu*, Bridging Molecular Mechanism and Industrial Process of Zeolite-catalyzed Methanol Conversion to Olefins and Ethanol by Advanced Solid-state NMR Spectroscopy, Chem. Soc. Rev., 2025, https://doi.org/10.1039/D5CS00341E.

3.Y.P. Xu, P. Peng*, H.L.X. Wang, H. Xiong, Z.C. Xu, X. Chen, Y.P. Li, A.M. Zheng, Y.X. Wei, Z.F. Yan*, S.T. Xu*, Z.M. Liu, Revealing the Crucial Roles of Pore Interconnectivity between Zeolitic and Nonzeolitic Components in Enhancing Diffusion and Catalytic Efficiency of Industrial Zeolite-Based Catalysts, J. Am. Chem. Soc., 2025, 147(22): 18550–18562.

4.Z.Q. Liu#,*, C.Y. Lou#, J.M. Yuan, X.M. Tang, Y.Z. Fan, J. Qi, R. Zhang, P. Peng, G.L. Liu, S.T. Xu*, A.M. Zheng*, Molecular Self-Gating Inside a Zeolite Catalyst, J. Am. Chem. Soc., 2025, 147(7): 6126-6136.

5.J.J. Li#, H.H. Chen#, W. Liu, Y.C. Zhi, N. Ta, S.J. Xie, L.Y. Xu, X.J. Li*, X.X. Zhu*, S.T. Xu*, Unravelling the Crucial of Spatial Al Distribution to Realize Precise Alkali-Treatment for Target Acid-Catalyzed Reactions, Angew. Chem. Int. Ed., 2025, e202416564.

6.C.Y. Lou#, W.N. Zhang#, P. Gao, Y.D. Zhou, Y.C. Zhi, F.X. Ye, S.T. Xu*, Y.X. Wei, Z.M. Liu, Aluminum speciation identification reveals water interactions in silicoaluminophosphate zeolites, PNAS, 2025, accepted.

7.B.H. Fan, W.N. Zhang, P. Gao, G.J. Hou, R.S. Liu, S.T. Xu*, Y.X. Wei, Z.M. Liu, Quantitatively Mapping the Distribution of Intrinsic Acid Sites in Mordenite Zeolite by High-Field 23Na Solid-State Nuclear Magnetic Resonance, J. Phy. Chem. Lett., 2022, 13(23): 5186-5194. 

8.T.T. Sun#, W. Chen#, S.T. Xu*, A.M. Zheng*, X.Q. Wu, S. Zeng, N. Wang, X.J. Meng, Y.X. Wei*, Z.M. Liu*, The first carbon-carbon bond formation mechanism in methanol-to-hydrocarbons process over chabazite zeolite, Chem, 2021, 7: 2415-2428.

9.X.L. Zhao#, S. Zeng#, X.L. Zhang, Q.Z. Deng, X.J. Li, W.G. Yu, K.K. Zhu*, S.T. Xu*, J.C. Liu, L. Han*, Generating Assembled MFI Nanocrystals with Reduced b-Axis through Structure-Directing Agent Exchange Induced Recrystallization, Angew. Chem. Int. Ed., 2021, 60(25): 13959-13968.

10.T.T. Sun, S.T. Xu*, D. Xiao, Z.Q. Liu, G.C. Li, A.M. Zheng, W.J. Liu, Z.C. Xu, Y. Cao, Q. Guo, N. Wang, Y.X. Wei*, Z.M. Liu*, Water-Induced Structural Dynamic Process in Molecular Sieve under Mild Hydrothermal Conditions: Ship-in-Bottle Strategy for Acidity Identification and Catalyst Modification, Angew. Chem. Int. Ed., 2020, 59(46): 20672-20681.

11.X.Q. Wu#, S.T. Xu#, W.N. Zhang, J.D. Huang, J.Z. Li, B.W. Yu, Y.X. Wei*, Z.M. Liu*, Direct Mechanism of the First Carbon-Carbon Bond Formation in the Methanol-to-Hydrocarbons Process, Angew. Chem. Int. Ed., 2017, 56(31): 9039-9043.

12.S.T. Xu#, A.M. Zheng#, Y.X. Wei, J.R. Chen, J.Z. Li, Y.Y. Chu, M.Z. Zhang, Q.Y. Wang, Y. Zhou, J.B. Wang, F. Deng, Z.M. Liu*, Direct observation of cyclic carbenium ions and their role in the catalytic cycle of the methanol-to-olefin reaction over chabazite zeolites, Angew. Chem. Int. Ed., 2013, 52(44): 11564-11568.

13.S.T. Xu, W.P. Zhang*, X.C. Liu, X.W. Han, X.H. Bao*, Enhanced In situ Continuous-Flow MAS NMR for Reaction Kinetics in the Nanocages, J. Am. Chem. Soc., 2009, 131(38): 13722-13727.