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Interchain-expanded extra-large-pore zeolites
Nature,DOI:10.1038/s41586-024-07194-6,Zihao Rei Gao, Huajian Yu, Fei-Jian Chen, Alvaro Mayoral, Zijian Niu, Ziwen Niu, Xintong Li, Hua Deng, Carlos Márquez-Álvarez, Hong He, Shutao Xu, Yida Zhou, Jun Xu, Hao Xu, Wei Fan, Salvador R. G. Balestra, Chao Ma, Jiazheng Hao, Jian Li*, Peng Wu*, Jihong Yu* & Miguel A. Camblor*
Interchain-expanded extra-large-pore zeolites
A 3D extra-large-pore zeolite enabled by 1D-to-3D topotactic condensation of a chain silicate
Science 379, 283–287 (2023).Jian Li, Zihao Rei, Qing-Fang Lin, Chenxu Liu, Fangxin Gao, Cong Lin, Siyao Zhang, Hua Deng, Alvaro Mayoral, Wei Fan, Song Luo, Xiaobo Chen, Hong He, Miguel A. Camblor*, Fei-Jian Chen*, Jihong Yu
A 3D extra-large-pore zeolite enabled by 1D-to-3D topotactic condensation of a chain silicate
A green selective water etching approach to metal-organic framework@mesoporous SiO2 yolk-shell nanoreactors with enhanced catalytic stabilities
Matter, 3(2020), 498-508.Bao, S. X.; Li, J. Y.; Guan, B. Y.; Jia, M. J.* Terasaki, O.; Yu, J. H.*
A green selective water etching approach to metal-organic framework@mesoporous SiO2 yolk-shell nanoreactors with enhanced catalytic stabilities
Zeolite-encaged Pd-Mn nanocatalysts for CO2 hydrogenation and formic acid dehydrogenation
Angewandte Chemie International Edition, 59(2020), 20183-20191.Sun, Q. M.; Chen, B. W. J.; Wang, N.; He, Q.; Chang, A.; Yang, C.-M.; Asakura, H.; Tanaka, T.; Hülsey, M. J.; Wang, C.-H.; Yu, J. H.*; Yan, N.*
Zeolite-encaged Pd-Mn nanocatalysts for CO2 hydrogenation and formic acid dehydrogenation
Functionalization of zirconium-based metal-organic layers with tailored pore environments for heterogeneous catalysis
Angewandte Chemie International Edition, 59(2020), 18224-18228.Qiao, G.-Y.; Yuan, S.; Pang, J. D.; Rao, H.; Lollar, C. T.; Dang, D. B.; Qin, J.-S.*; Zhou, H.-C.*; Yu, J. H.*
Functionalization of zirconium-based metal-organic layers with tailored pore environments for heterogeneous catalysis
Organic-free synthesis of high silica zeolite Y via a combined strategy of in situ hydroxyl radical assistance and post-synthesis treatment
Angewandte Chemie International Edition, 59(2020), 17225-17228.Wang, J. Y.; Liu, P. S.; Boronat, M.*; Ferri, P.; Xu, Z. G.; Liu, P.; Shen, B. J.; Wang, Z. D.; Yu, J. H.*
Organic-free synthesis of high silica zeolite Y via a combined strategy of in situ hydroxyl radical assistance and post-synthesis treatment
Subnanometer bimetallic platinum-zinc clusters in zeolites for propane dehydrogenation
Angewandte Chemie International Edition, 59(2020), 19450-19459.Sun, Q. M.; Wang, N.; Fan, Q. Y.; Zeng, L.; Mayoral, A.; Miao, S.; Yang, R. O.; Jiang, Z.; Zhou, W.; Zhang, J. C.; Zhang, T. J.; Xu, J.; Zhang, P.; Cheng, J.; Yang, D. -C.; Jia, R.; Li, L.; Zhang, Q. H.; Wang, Y.*; Terasaki, O.; Yu, J. H.*
Subnanometer bimetallic platinum-zinc clusters in zeolites for propane dehydrogenation
Carbon Dots-in-Zeolite via In-Situ Solvent-Free Thermal Crystallization: Achieving High-Efficiency and Ultralong Afterglow Dual Emission
CCS Chem., 2020, 2, 118–127. Hongyue Zhang, Kaikai Liu, Jiancong Liu, Bolun Wang, Chengyu Li, Wei Song, Jiyang Li,* Ling Huang and Jihong Yu*
Carbon Dots-in-Zeolite via In-Situ Solvent-Free Thermal Crystallization: Achieving High-Efficiency and Ultralong Afterglow Dual Emission
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