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Catalysts 2017, 7, 367 25 of 31 Acknowledgments: This review was sponsored by the National Natural Science Foundation of China (Grant No. 21306147). Conflicts of Interest: The authors declare no conflict of interest. References 1. Emori, E.Y.; Hirashima, F.H.; Zandonai, C.H.; Ortiz-Bravo, C.A.; Fernandes-Machado, N.R.C.; Olsen-Scaliante, M.H.N. Catalytic cracking of soybean oil using ZSM5 zeolite. Catal. Today 2017, 279, 168–176. [CrossRef] 2. Zhang, Q.; Liu, G.; Wang, L.; Zhang, X.; Li, G. Controllable Decomposition of Methanol for Active Fuel Cooling Technology. Energey Fuels 2014, 28, 4431–4439. [CrossRef] 3. Li, W.; Li, G.; Jin, C.; Liu, X.; Wang, J. One-step synthesis of nanorod-aggregated functional hierarchical iron-containing MFI zeolite microspheres. J. Mater. Chem. A 2015, 3, 14786–14793. [CrossRef] 4. Aziz, A.; Kim, K.S. Investigation of tertiary butyl alcohol as template for the synthesis of ZSM-5 zeolite. J. Porous Mater. 2015, 22, 1401–1406. [CrossRef] 5. Xu, D.; Swindlehurst, G.R.; Wu, H.; Olson, D.H.; Zhang, X.; Tsapatsis, M. On the Synthesis and Adsorption Properties of Single-Unit-Cell Hierarchical Zeolites Made by Rotational Intergrowths. Adv. Funct. Mater. 2014, 24, 201–208. [CrossRef] 6. Cundy, C.S.; Cox, P.A. The hydrothermal synthesis of zeolites history and development from the earliest days to the present time. Chem. Rev. 2003, 103, 663–701. [CrossRef] [PubMed] 7. Sadrameli, S.M. Thermal/catalytic cracking of liquid hydrocarbons for the production of olefins: A state-of-the-art review II: Catalytic cracking review. Fuel 2016, 173, 285–297. [CrossRef] 8. Blasco, T.; Corma, A. Martineztriguero, J. Hydrothermal stabilization of ZSM-5 catalytic-cracking additives by phosphorus addition. J. Catal. 2006, 237, 267–277. [CrossRef] 9. Xue, N.; Nie, L.; Fang, D.; Guo, X.; Shen, J.; Ding, W.; Chen, Y. Synergistic effects of tungsten and phosphorus on catalytic cracking of butene to propene over HZSM-5. Appl. Catal. A 2009, 352, 87–94. [CrossRef] 10. Luo, J.; Bhaskar, B.V.; Yeh, Y.-H.; Gorte, R.J. n-Hexane cracking at high pressures on H-ZSM-5, H-BEA, H-MOR, and USY for endothermic reforming. Appl. Catal. A 2014, 478, 228–233. [CrossRef] 11. Pagis, C.; Morgado Prates, A.R.; Farrusseng, D.; Bats, N.; Tuel, A. Hollow Zeolite Structures: An Overview of Synthesis Methods. Chem. Mater. 2016, 28, 5205–5223. [CrossRef] 12. Choi, M.; Na, K.; Kim, J.; Sakamoto, Y.; Terasaki, O.; Ryoo, R. Stable single-unit-cell nanosheets of zeolite MFI as active and long-lived catalysts. Nature 2009, 461, 246–249. [CrossRef] [PubMed] 13. Perez-Ramirez, J.; Christensen, C.H.; Egeblad, K.; Christensen, C.H.; Groen, J.C. Hierarchical zeolites: Enhanced utilisation of microporous crystals in catalysis by advances in materials design. Chem. Soc. Rev. 2008, 37, 2530–2542. [CrossRef] [PubMed] 14. Chal, R.; Gérardin, C.; Bulut, M.; Van Donk, S. Overview and industrial assessment of synthesis strategies towards zeolites with mesopores. ChemCatChem 2011, 3, 67–81. [CrossRef] 15. Mintova, S.; Jaber, M.; Valtchev, V. Nanosized microporous crystals: Emerging applications. Chem. Soc. Rev. 2015, 44, 7207–7233. [CrossRef] [PubMed] 16. Rahimi, N.; Karimzadeh, R. Catalytic cracking of hydrocarbons over modified ZSM-5 zeolites to produce light olefins: A review. Appl. Catal. A 2011, 398, 1–17. [CrossRef] 17. Tao, H.; Li, C.; Ren, J.; Wang, Y.; Lu, G. Synthesis of mesoporous zeolite single crystals with cheap porogens. J. Solid State Chem. 2011, 184, 1820–1827. [CrossRef] 18. Yin, C.; Wei, Y.; Wang, F.; Chen, Y. Introduction of mesopority in zeolite ZSM-5 using resin as templates. Mater. Lett. 2013, 98, 194–196. [CrossRef] 19. Garcia-Martinez, J.; Xiao, C.; Cychosz, K.A.; Li, K.; Wan, W.; Zou, X.; Thommes, M. Evidence of Intracrystalline Mesostructured Porosity in Zeolites by Advanced Gas Sorption, Electron Tomography and Rotation Electron Diffraction. ChemCatChem 2014, 6, 3110–3115. [CrossRef] 20. Mei, C.; Liu, Z.; Wen, P.; Xie, Z.; Hua, W.; Gao, Z. Regular HZSM-5 microboxes prepared via a mild alkaline treatment. J. Mater. Chem. 2008, 18, 3496–3500. [CrossRef] 21. Fodor, D.; Krumeich, F.; Hauert, R.; Van Bokhoven, J.A. Differences between individual ZSM-5 crystals in forming hollow single crystals and mesopores during base leaching. Chemistry 2015, 21, 6272–6277. [CrossRef] [PubMed]PDF Image | Strategies to Enhance the Catalytic Performance of ZSM-5
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