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Catalysts 2017, 7, 367 26 of 31 22. Dai, C.; Zhang, A.; Liu, M.; Guo, X.; Song, C. Hollow ZSM-5 with Silicon-Rich Surface, Double Shells, and Functionalized Interior with Metallic Nanoparticles and Carbon Nanotubes. Adv. Funct. Mater. 2015, 25, 7479–7487. [CrossRef] 23. Li, H.; He, S.; Ma, K.; Wu, Q.; Jiao, Q.; Sun, K. Micro-mesoporous composite molecular sieves H-ZSM-5/MCM-41 for methanol dehydration to dimethyl ether: Effect of SiO2/Al2O3 ratio in H-ZSM-5. Appl. Catal. A 2013, 450, 152–159. [CrossRef] 24. Sang, Y.; Jiao, Q.; Li, H.; Wu, Q.; Zhao, Y.; Sun, K. HZSM-5/MCM-41 composite molecular sieves for the catalytic cracking of endothermic hydrocarbon fuels: Nano-ZSM-5 zeolites as the source. J. Nanopart. Res. 2014, 16, 2755–2765. [CrossRef] 25. Peng, P.; Wang, Y.; Zhang, Z.; Qiao, K.; Liu, X.; Yan, Z.; Subhan, F.; Komarneni, S. ZSM-5-based mesostructures by combined alkali dissolution and re-assembly: Process controlling and scale-up. Chem. Eng. J. 2016, 302, 323–333. [CrossRef] 26. Diao, Z.; Wang, L.; Zhang, X.; Liu, G. Catalytic cracking of supercritical n-dodecane over meso-HZSM-5@Al-MCM-41 zeolites. Chem. Eng. Sci. 2015, 135, 452–460. [CrossRef] 27. Wang, D.; Xu, L.; Wu, P. Hierarchical, core–shell meso-ZSM-5@mesoporous aluminosilicate-supported Pt nanoparticles for bifunctional hydrocracking. J. Mater. Chem. A 2014, 2, 15535–15545. [CrossRef] 28. Zheng, J.; Wang, G.; Pan, M.; Guo, D.; Zhao, Q.; Li, B.; Li, R. Hierarchical core–shell zeolite composite ZSM-5@SAPO-34 fabricated by using ZSM-5 as the nutrients for the growth of SAPO-34. Microporous Mesoporous Mater. 2015, 206, 114–120. [CrossRef] 29. Vu, X.H.; Nguyen, S.; Dang, T.T.; Phan, B.M.Q.; Nguyen, D.A.; Armbruster, U.; Martin, A. Catalytic Cracking of Triglyceride-Rich Biomass toward Lower Olefins over a Nano-ZSM-5/SBA-15 Analog Composite. Catalysts 2015, 5, 1692–1703. [CrossRef] 30. Jiang, J.; Yang, Y.; Duanmu, C.; Xu, Y.; Feng, L.; Gu, X.; Chen, J. Preparation of hollow ZSM-5 crystals in the presence of polyacrylamide. Microporous Mesoporous Mater. 2012, 163, 11–20. [CrossRef] 31. Tao, H.; Ren, J.; Liu, X.; Wang, Y.; Lu, G. Facile synthesis of hollow zeolite microspheres through dissolution–recrystallization procedure in the presence of organosilanes. J. Solid State Chem. 2013, 200, 179–188. [CrossRef] 32. Pashkova, V.; Tokarova, V.; Brabec, L.; Dedecek, J. Self-templating synthesis of hollow spheres of zeolite ZSM-5 from spray-dried aluminosilicate precursor. Microporous Mesoporous Mater. 2016, 228, 59–63. [CrossRef] 33. Groen, J.C.; Bach, T.; Ziese, U.; Donk, A.M.P.-V.; Jong, K.P.D.; Moulijn, J.A.; Pérez-Ramírez, J. Creation of Hollow Zeolite Architectures by Controlled Desilication of Al-Zoned ZSM-5 Crystals. J. Am. Chem. Soc. 2005, 127, 10792–10793. [CrossRef] [PubMed] 34. Vu, X.; Armbruster, U.; Martin, A. Micro/Mesoporous Zeolitic Composites: Recent Developments in Synthesis and Catalytic Applications. Catalysts 2016, 6, 183. [CrossRef] 35. Li, G.; Diao, Z.; Na, J.; Wang, L. Exploring suitable ZSM-5/MCM-41 zeolites for catalytic cracking of n-dodecane: Effect of initial particle size and Si/Al ratio. Chin. J. Chem. Eng. 2015, 23, 1655–1661. [CrossRef] 36. Boukoussa, B.; Aouad, N.; Hamacha, R.; Bengueddach, A. Key factor affecting the structural and textural properties of ZSM-5/MCM-41 composite. J. Phys. Chem. Solids 2015, 78, 78–83. [CrossRef] 37. Xue, H.; He, Z.; Zhao, Y.; Jiao, Q.; Wu, Q.; Li, H. Controllable synthesis of composites of ZSM-5 and KIT-1 using an ionic liquid as template. Solid State Sci. 2017, 64, 29–33. [CrossRef] 38. Ghorbanpour, A.; Gumidyala, A.; Grabow, L.C.; Crossley, S.P.; Rime, J.D. Epitaxial Growth of ZSM-5@Silicalite-1: A Core-Shell Zeolite Designed with Passivated Surface Acidity. ACS Nano 2015, 9, 4006–4016. [CrossRef] [PubMed] 39. Li, N.; Zhang, Y.-Y.; Chen, L.; Au, C.-T.; Yin, S.-F. Synthesis and application of HZSM-5@silicalite-1 core–shell composites for the generation of light olefins from CH3Br. Microporous Mesoporous Mater. 2016, 227, 76–80. [CrossRef] 40. Vu, X.H.; Bentrup, U.; Hunger, M.; Kraehnert, R.; Armbruster, U.; Martin, A. Direct synthesis of nanosized-ZSM-5/SBA-15 analog composites from preformed ZSM-5 precursors for improved catalytic performance as cracking catalyst. J. Mater. Sci. 2014, 49, 5676–5689. [CrossRef] 41. Zhu, X.; Wu, L.; Magusin, P.C.M.M.; Mezari, B.; Hensen, E.J.M. On the synthesis of highly acidic nanolayered ZSM-5. J. Catal. 2015, 327, 10–21. [CrossRef]PDF Image | Strategies to Enhance the Catalytic Performance of ZSM-5
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