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2025

593. Han, J. X., Xing, Z. W., Guo, Q., Wu, D., Lai, Z. Z., Cheng, X. X., Dai, Z. F., Xiong, Y. B., Meng, X. J., Ma, S. Q., Xiao, F.-S., Sun, Q., Covalent Organic Framework Nanosheets for the Assembly of Efficient Membrane Bioreactors, Angew. Chem. Int. Ed., 2025, 64, e202505797. [Link]


592. Liu, L. J., Zhang, J., Wang, L., Xiao, F.-S., Heterogeneous Catalysts for Selective Hydrogenolysis of Biomass-derived Polyols, Acta Chimica Sinica, 2025, 81, 533-547. [Link]


591. Zhang, G. Q., Liu, F. Q., Zhong, S. C., Liu, F. J., Zhu, Q. L., Tang, Y., Tang, J. Y., Zheng, A. M., Jiang, L. L., Xiao, F.-S., Surpassing stoichiometric limitation for supra-multi-molar adsorption and separation of acid gases, Nat. Commun., 2025, 16, 2861. [Link]


590. Cao, B., Liu, Y. F., Zhao, Y., Qu, J. S., Zhou, Q., Xiao, F.-S., Li, Can, Wang, L., Li, R. G., Zeolite Encapsulation to Enhance Interfacial Gas Availability for Photocatalytic Hydrogen Peroxide Production, Angew. Chem. Int. Ed., 2025, 64, e202422495. [Link]


589. Wu, Y. S., Wang, H. Q., Xiao, F.-S., Wu, Z. B., Gadolinium-Mediated Oxygen Affinity Induced Efficient Covalorization of CH4 and N2O in an Ir-Gd2O3 Single-Atom Catalyst, J. Am. Chem. Soc., 2025, 214-, 25787-25798. [Link]


588. Xiao, P. P., Wang, Y., Tang, X. M., Zheng, A. M., De Baerdemaeker, T., Parvulescu, A., De Vos, D., Meng, X. J., Xiao, F.-S., Gies, H., Yokoi, T., Isomers of organic structure directing agent influence the Al distribution ofAEI zeolite and catalytic performance in methane oxidation, Chin. J. Catal., 2025, 73, 252-260. [Link]


587. Xiao, J. L., Wang, C., Meng, H. T., Wang, C. T., Li, H. J., Cheng, Y.-X., Yi, N., Yuan, W. T., Zhou, W., Cao, L., Wang, L., Xiao, F.-S.,Spontaneous deposition of boron oxide on a rhodium nanostructure for selective conversion of syngas to ethanol, Chem. Sci., 2025, 16, 22002-22009. [Link]


586. Xiao, F.-S., The grand blueprint for porous materials, Natl. Sci. Rev., 2025, 12, nwaf401. [Link]


585. Liu, P., Lu, Y. H., Wu, Q. M., Xiao, F.-S., Recent progress in morphological control of zeolites from organic templates, Sci. China Chem., 2025, 68, 6235-6247. [Link]


584. Li, J., Lai, Y. Q., Zhang, J., Xu, S. T., Wang, S., Fan, W. B., Yan, W. F., Liu, Z. M., Meng, X. J., Yang, F., Xiao, F.-S., Regulation of Al sites in AEI framework from different zeolite precursors for selective catalytic reduction of NOx with methane, J. Catal., 2026, 454, 116660. [Link]


583. Lai, Y. Q., Chen, X., Ma, Y., Yan, W. F., Meng, X. J., Yang, F., Xiao, F.-S.,Selective catalytic reduction of NOx withmethane over Co-SSZ-16, Mater. Today Nano, 2026, 33, 100725. [Link]


582. Lai, Y. Q., Li, F., Meng, X. J., Xiao, F.-S., Recent progress in efficient zeolite-based catalysts for catalytic conversion of C1 molecules, Chem. Comm., 2025, 61, 17330-17344. [Link]


581. Zhao, M. Y., Wu, Q. M., Chen, X., Xiong, H., Tian, G., Yan, L. T., Xiao, F.-S., Wei, F., Entropy-Governed Zeolite Intergrowth, J. Am. Chem. Soc., 2025, 147, 39818-39826.[Link]


580. Zhang, K. D., Wang, H., Tang, R., Huang, Y., Lv, Y. T., Wu, H. X., Luo, Q. S., Yuan, W. T., Wang, Y., Wang, L., Xiao, F.-S., Stable and Selective CO2 Hydrogenation over the Supported Rh Catalyst Modified with Titanium Oxide Overlayers, ACS Catal., 2025, XXX, 19840-19849.[Link]


579. Deng, L. F., Lou, C. Y., Wu, Q. M., Liu, X. L., Niu, J., Du, X. H., Xu, S. T., Wang, L., Liu, Z. M., Yu. J. H., Xiao, F.-S., Insights into the Wastewater-Free Synthesis of Zeolites, J. Am. Chem. Soc., 2025, doi: 10.1021/jacs.5c15625.[Link]


578. Wang, H., Wang, L., Xiao, F.-S., Matching Zeolites with Metal Species for Efficient Catalysis, CCS Chem., 2025, doi:10.31635/ccschem.025.202506367.[Link]


577. Zhou, H., Qi, G. D., Chu, Y. Y., Wang, L., Hui, Y., Yao, Z. Y., Wang, F. R., Chu, S. Q., Qin, Y. C., Song, L. J., Liu, L., Qin, X. D., Xu, J., Deng, F., Xiao, F.-S., Ultralow Content of Chromium Species in Zeolite for Efficient Catalytic Propane Dehydrogenation, J. Am. Chem. Soc., 2025, doi: 10.1021/jacs.5c04531.

[Link]


576. Luo, Q. S., Wang, H., Lv, Y. T., Fan, J. H., Wu, H. X., Fang, W., Liu, L. J., Liu, P., Wang, L., Xiao, F.-S., Hydrophobic Poly(divinylbenzene) Polymer-Supported Ruthenium Catalysts for Efficient Hydrogenation of Pyridines in Water, Angew. Chem. Int. Ed., 2025, doi: 10.1002/anie.202510284.[Link]


575. Xiao, Y. H., Wang, Y. J., Wang, C. T., Fang, W., Liu, P., Hui, Y., Li, H. J., Zhou, H., Xiao, F.-S., Tungsten Species on Beta Zeolite with Abundant Silanol Nests for Efficient Olefin Metathesis, Chem. Bio. Eng., 2025, doi: 10.1021/cbe.5c0004.[Link]


574. Li, Y., Zhang, J., Zhang, W., Zhou, C., Huang, J. B. Su, Z. R., Qiao, Z. Y., Qin, X. Y., Xiong, P., Xiao, F.-S., Carbothermal Shock Synthesis of a PtCoCe Ternary Oxide Catalyst for Selective Hydrogenolysis of Furfural to 1,5-Pentanediol, ACS Catal., 2025, 15, 7731-7740.[Link]


573. Wei, M., Meng, H., Shen, T. Y., Yin, Z. M., Yang, Y. S., Zhang, J., Feng, K., Yuan, S. T., Wang, L. Xu, E. Z., Zhang, L. R., Hong, S., Xiao, F.-S., Embedded-type Cu Nanoparticle with Largely Enhanced Catalytic Activity and Stability Towards Methanol Steam Reforming, Angew. Chem. Int. Ed., 2025, doi:10.1002/anie.202506458.[Link]


572. Liu, L. J., Zheng, H., Wu, A. J., Li, H. J., Cao, A., Yan, J. H., Wang, L., Xiao, F.-S., Stabilization of Metal-Based Catalysts for Hydrogenation of CO2 to C1 Products, Energ. Fuel, 2025, doi: 10.1021/acs.energyfuels.5c03153.[Link]


571. Wang, H., Xiao, F.-S., Superior Catalytic Selectivity by Merging Carbon-Decorated Pd  Species with Zeolite Micropores, ACS Cent. SCi., 2025, doi: 10.1021/acscentsci.5c01175.[Link]


570. Wang, H., Wu, Q., Xiao, F.-S., Design of zeolite-based catalysts by Le Chatelier's principleAppl. Catal. B: Environ., 2025, 379, 125671.[Link]


569. Lai, Y. Q., Chen, X., Li, J., Yan, W. F., Meng, X. J., Yang, F., Xiao, F.-S., Efficient NOx abatement by passive adsorption over SSZ-16 zeolite supported palladium, Catal. Today, 2025, 455, 115314.[Link]


568. Wang, H., Xiao, F.-S., Active support of γ-Mo2N and α-MoC for sustainable hydrogen production, Joule, 2025, 9, 101918. [Link]


567. Liu, L. J., Yuan, W. T., Yao, S. Y., Cao, A., Wang, L., Stabilizing metal nanoparticle catalysts in their dynamic processes, Chem. Catal., 2025, 5, 101330. [Link]


566. Zhou, H., Li, H., Wang, L., Chu, S. Q., Liu, L. j., Liu, L., Qi, J. Z., Ren, Z. H., Cai, A. Y., Hui, Y., Qin, Y. C., Song, L. J., Qin, X. D., Shi, J. Q., Hou, J., Ding, Y. Q., Ma, J. B., Xu, S. D., Tao, X., Li, L. N., Yang, Q., Hu, B. W., Liu, X., Chen, L. W., Xiao, J. P., Xiao, F.-S., Cobaltosilicate zeolite beyond platinum catalysts for propane dehydrogenation, Nat. Catal., 2025, 8, 357-367.[Link]


565.Wu, Y. X., Deng, P. C., Liu, L. J., Zhang, J. Y., Liu, H. S., Gao, X. H., Xiao, F.-S., Wang, Liang, Dynamic evolution of metal structures on/in zeolites for catalysis, Chem. Soc. Rev., 2025, 54, 4745-4762. [Link]


564. Liu, L. J., Lu, J. Y., Liu, M. J., Wang, H., Zhang, J. Y., Xu, G. X., Wang, Z. D., Liu, Y., Liang, J., Gao, X. H., Lv, Y. T., Zhou, Y. D., Xu, S. T., Li, L. N., Cao, X.-M., Wang, L., Copper nanoparticles stabilized by adjacent methyl groups on silica for durable catalysts, CCS Chem., 2025, doi: 10.31635/ccschem.025.202505638. [Link]


563. Wu, Y. X., Liu, Z. Q., Wang, H., Shi, H., Yuan, W. T., Wang, Y., Liu, Y. F., Lv, Y. T., Qin, X. D., Zheng, A. M., Wang, L., Xiao, F.-S., Hydroformylation over Zeolite Catalysts with Solvophobic Micropores, J. Am. Chem. Soc., 2025, xx, xx.[Link]


562.Hui, Y., Wang, L., Xiao, F.-S., Catalysis Enhanced by Catalyst Wettability, ACS Nano, 2025, 19, 8, 7617-7633.[Link]


561.Mu, X. X., Lin, D. Q., Zhang, J., Qin, X. Y., Huang, J. B., Xiao, F.-S., Efficient catalytic conversion of polyethylene terephthalate to dimethyl terephthalate over mesoporous beta zeolite supported zinc oxide, Carbon Future, 2025, 2, 9200039.[Link]


560. Wang, H., Wu, Y. X., Luo, Q. S., Wu, H. X., Xiao, F.-S., Wang, L., Managing dynamic catalyst changes to upgrade reactors and reaction processes, Nat. Chem. Eng., published online.[Link]


559. Xiao, J. L., Meng, H. T., Wang, C. T., Xiao, F.-S., Manganese-Modified Metal Nanoparticle Catalysts for Syngas to C2+-Oxygenates, ChemCatChem, 2025, 17, e202401731.[Link]


558. Fan, K., Liu, S., Wu, Q., lemhoff, A., Kunkes, E., De Baerdemaeker, T., Parvulescu, A., Bottke., N., Yokoi, T., De Vos, D., Meng, X., Zhang, W., Xiao, F.-S., Regulation of Al distribution in ITR zeolite for methanol to propylene, J. Energy Chem., 2025, 102, 120-125. [Link]


557. Li. Y., Zhang, J., Meng, H., Li, D., Xiao, F.-S., A significant enhancement for hydrogenolysis of glycerol to 1,3-propanediol over Pt/W-SiO2 catalyst by tungsten oxide and silica interaction, Appl. Catal. B-Environ., 2025, 360, 124524. [Link]


556. Shi, J., Zhang, M., Zhu, L., Wu, Q., Meng, X., Xiao, F.-S., Recent advances in sustainable synthesis of zeolites, Mater. Today Sustainability., 2025, 29, 101065. [Link]


555. Luan, H., Zai, T., Wu, Q., Meng, X., Wu, J., Liu, W., Sheng, N., Wang, H., Xiao, F.-S., Alkaline Synthesis of Pure Silica ITH Zeolite for Vapor Phase Beckmann Rearrangement of Cyclohexanone OximeChem-Asian J., 2025, 20, 1, e202401057. [Link]


554. Xu, L., Liu, S., Li, S., Wang, L., Meng, X., Xiao, F.-S., De Baerdemaeker, T., Parvulescu, A., Zhang, W.,  Highly Efficient and Selective Synthesis of Renewable Isoprene Over Mo-Fe-O and MgO/Mg(OH)2 Composite Catalysts, Chem-Eur J., 2025, 31, 4, e202403375. [Link]


553. Wang, H., Li, H., Duan, J.,Wang, L., and Xiao, F.-S., Adjustment of Molecular Sorption Equilibrium on Catalyst Surface for Boosting CatalysisAcc. Chem. Res., 2025, 58, 440-451. [Link]