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495. Wang, H., Wang, L., Luo, Q., Zhang, J., Wang, C., Ge, X., Zhang, W., Xiao, F.-S., Two-dimensional manganese oxide on ceria for the catalytic partial oxidation of hydrocarbons. Chem. Synth., 2022, 2(1), 2. [Link] 

494. Luan, H., Xu, C., Wu, Q., Xiao, F.-S. Recent advances in the synthesis of TS-1 zeolite. Front. Chem., 2022, 10, 1080554-1080554. [Link]


493. Liu, P., Wu, Q., Yan, K., Wang, L., Xiao, F.-S. Solvent-free synthesis of FAU zeolite from coal fly ash. Dalton Trans., 2022, 52(1), 24-28. [Link]


492. Zhu, Q., Zhou, H., Wang, L., Wang, C., Wang, H., Fang, W., He, M., Wu, Q., Xiao, F.-S.. Enhanced CO2 utilization in dry reforming of methane achieved through nickel-mediated hydrogen spillover in zeolite crystals. Nat. Catal., 2022, 5(11), 1030-1037. [Link]

491. Luan, H.; Chen, W.; Wu, Q.; Zheng, A.; Meng, X.; Baerdemaeker, T. D.;Parvulescu, A.-N.; Müller, U.;Xiao, F.-S. Direct synthesis of aluminosilicate ITH zeolite in the presence of a small organic template, Catal. Today2022, 405–406, 251-257. [Link]

490. Luo, Q.; Wang, H.; Wang L.; Xiao, F.-S. Alloyed PdCu Nanoparticles within Siliceous Zeolite Crystals for Catalytic Semihydrogenation. ACS Materials Au, 2022 2 (3), 313-320. [Link]

489. Su, Z.; Zhang, J.; Lu, S.; Xiao, F.-S. Pt Nanoparticles Supported on Nb-Modified TiO2 as an Efficient Heterogeneous Catalyst for the Conversion of Cellulose to Light Bioalcohols. Chem. Commun., 2022, 58 (88), 1234912352. [Link

488. Wu, L.; Qi, C.; Sun, X.; Su, H.; Sun, L.; Zhao, L.; Xiao, F. A Highly Efficient Bi-Functional Zeolite Catalyst for Low Temperature Catalytic Cracking of n-Octane to Produce Propylene: Joint Contribution of Nanogold and Dealumination. Appl. Catal. A-Gen., 2022, 646, 118862. [Link

487. Dai, Z.; Chen, W.; Kan, X.; Li, F.; Bao, Y.; Zhang, F.; Xiong, Y.; Meng, X.; Zheng, A.; Xiao, F.-S.; Liu, F. Stable Porous Organic Polymers Used for Reversible Adsorption and Efficient Separation of Trace SO2ACS Macro Lett., 2022, 11 (8), 9991007. [Link]

486. Wang, H.; Wang, L.; Xiao, F.-S. New Routes for the Construction of Strong Metal-Support Interactions. Sci. China Chem.2022, 65, 2051-2057[Link]

485. Duan, J.; Chen, W.; Wang, C.; Wang, L.; Liu, Z.; Yi, X.; Fang, W.; Wang, H.; Wei, H.; Xu, S.; Yang, Y.; Yang, Q.; Bao, Z.; Zhang, Z.; Ren, Q.; Zhou, H.; Qin, X.; Zheng, A.; Xiao, F.-S. Coking-Resistant Polyethylene Upcycling Modulated by Zeolite Micropore Diffusion. J. Am. Chem. Soc., 2022, 144 (31), 14269-14277. [Link]

484. Wu, Q.; Luan, H.; Xiao, F.-S. Theoretical Design for Zeolite Synthesis. Sci. China Chem., 2022, 65 (9), 1683-1690. [Link]

483. Fang, W.; Wang, C.; Liu, Z.; Wang, L.; Liu, L.; Li, H.; Xu, S.; Zheng, A.;  Qin, X.; Liu, L.; Xiao, F.-S. Physical Mixing of a Catalyst and a  Hydrophobic Polymer Promotes CO Hydrogenation through Dehydration. Science, 2022377 (6604), 406–410. [Link]


482. Kan, X.; Xiao, S.; Zheng, Y.; Cao, Y.; Xiao, Y.; Liu, F.; Jiang, L.; Xiao,  F.-S. Sustainable Synthesis of Ordered Mesoporous Materials without  Additional Solvents. J. Colloid Interf. Sci., 2022619, 116-122. [Link]


481. Wang, C.; Fang, W.; Liu, Z.; Wang, L.; Liao, Z.; Yang, Y.; Li, H.; Liu, L.;  Zhou, H.; Qin, X.; Xu, S.; Chu, X.; Wang, Y.; Zheng, A.; Xiao, F.-S.  Fischer–Tropsch Synthesis to Olefins Boosted by MFI Zeolite Nanosheets. Nat. Nanotechnol., 202217 (7), 714-720. [Link]


480. Wang, H.; Qin, M.; Wu, Q.; Cheng, D.-G.; Meng, X.; Wang, L.; Xiao, F.-S. Zeolite Catalysts for Green Production of Caprolactam. Ind. Eng. Chem. Res., 2023, 62, 5, 2217–2224. [Link]


479. Tang, Y.; Qi, G.; Wang, S.; Meng, X.; Xiao, F.-S. Recent Development of  Bio-Inspired Porous Materials for Catalytic Applications. Chem. Res. Chin. Univ.2023, 39, 13-18[Link]


478. Sun, Q.; Xiao, F.-S. Porous Polymeric Catalysts Constructed from Vinylated Functionalities. Acc. Mater. Res., 20223 (7), 772–781. [Link]


477. 肖丰收. 沸石整体结构的刚性与局部孔道的柔性化学进展, 202234 (5), 1013. [Link]


476. Lu, S.; Zhang, J.; Wu, Z.; Su, Z.; Huang, J.; Liang, Y.; Xiao, F.-S.  Catalytic Oxidation of Ethyl Lactate to Ethyl Pyruvate over Au-Based  Catalyst Using Authentic Air as Oxidant. Catal. Surv. Asia, 2022, 26, 211-220. [Link]


475. Yuan,  E.-H.; Li, M.; Zhou, J.-F.; Niu, Y.; Song, Y.-H.; Zhang, K.; Yang,  M.-H.; Jiang, J.; Zhang, B.; Xiao, F.-S.; Liu, Z.-T.; Liu, Z.-W.  Ultrafast Crystallization of Mesoporous Sn-MFI Single Crystals Achieved  by Addition of the Cationic Polyelectrolyte in Starting Gels. Micropor. Mesopor. Mater., 2022337, 111922. [Link]


474. Li, H.; Wang, L.; Gao, X.; Xiao, F.-S. Cu/ZnO/Al2O3 Catalyst Modulated by  Zirconia with Enhanced Performance in CO2 Hydrogenation to Methanol. Ind. Eng. Chem. Res., 202261 (29), 10446-0454. [Link]


473. Wu, Q.; Xu, C.; Zhu, L.; Meng, X.; Xiao, F.-S. Recent Strategies for Synthesis of Metallosilicate Zeolites. Catal. Today, 2022390-391, 2-11. [Link]


472. Yu,  R.; Kong, H.; Zhao, Z.; Shi, C.; Meng, X.; Xiao, F.; De Baerdemaeker,  T.; Parvulescu, A.; Müller, U.; Zhang, W. Rare‐earth Yttrium Exchanged  Cu‐SSZ‐39 Zeolite with Superior Hydrothermal Stability and SO2 ‐Tolerance in NH3 ‐SCR of NOxChemCatChem, 2022, 14, 10, e202200228[Link


471. Wang, X.; Ma, Y.; Wu, Q.; Wen, Y.; Xiao, F.-S. Zeolite Nanosheets for Catalysis. Chem. Soc. Rev., 202251 (7), 2431-2443. [Link]


470. Luan,  H.; Wu, Q.; Zhang, J.; Wang, Y.; Meng, X.; Xiao, F.-S. Sustainable  Synthesis of Core-Shell Structured ZSM-5@Silicalite-1 Zeolite. Chem. Res. Chin. Univ., 202238 (1), 136-140. [Link]


469. Zhang,  L.; Han, S.; Wu, Y.; Xie, Y.; Wang, L.; Meng, X.; Xiao, F.-S. Complete  Oxidation of Formaldehyde at Room Temperature over Ag-Loaded Octahedral  Molecular Sieve Synthesized from Solvent-Free Route. Appl. Catal. B Environ., 2022303, 120875. [Link]


468. Xu, H.; Zhu, L.; Wu, Q.; Meng, X.; Xiao, F.-S. Advances in the Synthesis and Application of the SSZ-39 Zeolite. Inorg. Chem. Front., 20229(6), 1047-1057. [Link]


467. Wang,  C.; Huang, Y.; Wang, L.; Xiao, F.-S. Structure-Performance Interplay of  Rhodium-Based Catalysts for Syngas Conversion to Ethanol. Mater. Chem. Front., 20226 (6), 663-679. [Link]


466. Liu, Y.; Wang, L.; Xiao, F.-S. Selective Oxidation of Methane into Methanol Under Mild Conditions. Chem. Res. Chin. Univ., 2022, 38, 671-676[Link]


465. Wang,  L.-X.; Wang, Z.-Q.; Wang, L.; Yang, Z.; Zhu, Q.; Liu, Y.; Fang, W.;  Gong, X.-Q.; Liu, Y.; Liu, X.; Xiao, F.-S. CuS -Mediated Two Reaction  Systems Enable Biomimetic Photocatalysis in CO2 Reduction with Visible  Light. J. Energy Chem., 202265, 497-504. [Link]


464. Ma,  Y.; Tang, X.; Hu, J.; Ma, Y.; Chen, W.; Liu, Z.; Han, S.; Xu, C.; Wu,  Q.; Zheng, A.; Zhu, L.; Meng, X.; Xiao, F.-S. Design of a Small Organic Template for the Synthesis of Self-Pillared Pentasil Zeolite Nanosheets.  J. Am. Chem. Soc. 2022144 (14), 6270-6277. [Link]


463. Wu,  Z.; Zhang, J.; Su, Z.; Lu, S.; Huang, J.; Liang, Y.; Tan, T.; Xiao,  F.-S. Selective Conversion of Acetone to Mesitylene over Tantalum  Phosphate Catalysts. Chem. Commun. 202258 (17), 2862-2865. [Link]


462. Minnebruggen,  S. V.; Baerdemaeker, T. D.; Cheung, K. Y.; Parvulescu, A.-N.; Müller,  U.; Tomkins, P.; Oliveira-Silva, R. de; Meng, X.; Xiao, F.-S.; Yokoi,  T.; Zhang, W.; Sakellariou, D.; Vos, D. D. Alkylation of Isobutane with  Butenes Using OSDA-Free Zeolite Beta. J. Catal. 2022406, 206-212. [Link]