Journal of the Chinese Ceramic Society, Volume. 52, Issue 9, 3047(2024)
Study on Synthesis and Properties of Iron-Containing Mordenite Molecular Sieves
[1] [1] BARRER R M. 435. Syntheses and reactions of mordenite[J]. J Chem Soc, 1948: 2158.
[2] [2] SASAKI H, OUMI Y, ITABASHI K, et al. Direct hydrothermal synthesis and stabilization of high-silica mordenite (Si∶Al = 25) using tetraethylammonium and fluoride ions[J]. J Mater Chem, 2003, 13(5):1173–1179.
[3] [3] TSUDA T, LU B W, SASAKI H, et al. Direct synthesis of high-silica mordenite and its thermal stability[M]//Studies in Surface Science and Catalysis. Amsterdam: Elsevier, 2004: 224–232.
[4] [4] LU B W, TSUDA T, SASAKI H, et al. Effect of aluminum source on hydrothermal synthesis of high-silica mordenite in fluoride medium, and it’s thermal stability[J]. Chem Mater, 2004, 16(2): 286–291.
[5] [5] LU B W, KANAI T, OUMI Y, et al. Characterization of high-silica mordenites synthesized by various direct hydrothermal synthesis methods[M]//Molecular Sieves: From Basic Research to Industrial Applications, Proceedings of the 3rd International Zeolite Symposium(3rd FEZA). Amsterdam: Elsevier, 2005: 725–732.
[6] [6] LU B W, OUMI Y, ITABASHI K, et al. Effect of ammonium salts on hydrothermal synthesis of high-silica mordenite[J]. Microporous Mesoporous Mater, 2005, 81(1–3): 365–374.
[9] [9] HINCAPIE B O, GARCES L J, ZHANG Q H, et al. Synthesis of mordenite nanocrystals[J]. Microporous Mesoporous Mater, 2004,67(1): 19–26.
[12] [12] ZHANG X, LI Y P, QIU S B, et al. Synthesis of methyl acetate by dimethyl ether carbonylation over Cu/HMOR: Effect of catalyst preparation method[J]. Chin J Chem Phys, 2013, 26(1): 77–82.
[13] [13] WANG S R, GUO W W, ZHU L J, et al. Methyl acetate synthesis from dimethyl ether carbonylation over mordenite modified by cation exchange[J]. J Phys Chem C, 2015, 119(1): 524–533.
[14] [14] ZHOU H, ZHU W L, SHI L, et al. Promotion effect of Fe in mordenite zeolite on carbonylation of dimethyl ether to methyl acetate[J]. Catal Sci Technol, 2015, 5(3): 1961–1968.
[15] [15] ZHOU Y, ZHANG J L, WANG L, et al. Self-assembled iron-containing mordenite monolith for carbon dioxide sieving[J]. Science, 2021,373(6552): 315–320.
[16] [16] ZHOU T Q, LI L D, JIE C, et al. Fe-mordenite/cordierite monolith for the catalytic decomposition of nitrous oxide[J]. Ceram Int, 2009, 35(8):3097–3101.
[19] [19] ?EF?IK J, MCCORMICK A V. Kinetic and thermodynamic issues in the early stages of sol-gel processes using silicon alkoxides[J]. Catal Today, 1997, 35(3): 205–223.
[21] [21] FU D L, PARK Y, DAVIS M E. Confinement effects facilitate low-concentration carbon dioxide capture with zeolites[J]. Proc Natl Acad Sci USA, 2022, 119(39): e2211544119.
Get Citation
Copy Citation Text
CHENG Ying, CHENG Shimin, TAN Guangyu, LI Shengpeng, WANG Chuang, YIN Dongxue, WANG Qian, YUAN Long. Study on Synthesis and Properties of Iron-Containing Mordenite Molecular Sieves[J]. Journal of the Chinese Ceramic Society, 2024, 52(9): 3047
Category:
Received: Oct. 20, 2023
Accepted: --
Published Online: Nov. 8, 2024
The Author Email: Shimin CHENG (chengshimin@ctdmto.com)