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http://dx.doi.org/10.9713/kcer.2015.53.2.247

Effect of SiC Crystal Phase on Growing ZSM-5 on the Surface of SiC  

Jung, Eunjin (Energy & Environmental Devision, Korea Institute of Ceramic Engineering and Technology)
Lee, Yoon Joo (Energy & Environmental Devision, Korea Institute of Ceramic Engineering and Technology)
Kim, Younghee (Energy & Environmental Devision, Korea Institute of Ceramic Engineering and Technology)
Kwon, Woo Teck (Energy & Environmental Devision, Korea Institute of Ceramic Engineering and Technology)
Shin, Dong-Geun (Energy & Environmental Devision, Korea Institute of Ceramic Engineering and Technology)
Kim, Soo Ryong (Energy & Environmental Devision, Korea Institute of Ceramic Engineering and Technology)
Publication Information
Korean Chemical Engineering Research / v.53, no.2, 2015 , pp. 247-252 More about this Journal
Abstract
ZSM-5 crystals grew on the surface of ${\alpha}$-SiC and ${\beta}$-SiC particles by hydrothermal synthesis method. SiC particles which were > $50{\mu}m$ of size were used, and oxide layer were developed on the surface of the particles to induce growth of ZSM-5 from the surface. Then, synthesis time and temperature condition were considered growing ZSM-5. In this study, oxide layer was formed on ${\beta}$-SiC at $900^{\circ}C$ in air, and it was controlled to grow ZSM-5 grew from the ${\beta}$-SiC surface with $150^{\circ}C$ synthesis condition. This is due to Si-O-Si or Si-O-Al bond, which is basic framework of ZSM-5 can be easily formed, from the silicon oxide film on the surface of ${\beta}$-SiC. When the synthesis temperature was $200^{\circ}C$, the size of ZSM-5 was increased, and it covered much area of the SiC surface with better crystal shapes with longer synthesis time.
Keywords
Zeolite; Silicon Carbide; SiC; Catalyst Support; Catalyst;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Baerlocher, C., Meier, W. M. and Olson, D. H., "Atlas of Zeolite Structure Types," Vol 190. London, Elsevier (1996).
2 Van Donk, S., Janssen, A. H., Bitter, J. H. and de Jong, K. P., "Generation, Characterization, and Impact of Mesopores in Zeolite Catalysts," Catal. Rev., 45, 297-319(2003).   DOI
3 Darthomeuf, D., "Zeolite Acidity Dependence on Structure and Chemical Environment. Correlations with Catalysis," Mater. Chem. Phys., 17, 49-71(1987).   DOI
4 Meusinger, J. and Corma, A., "Influence of Zeolite Composition and Structure on Hydrogen Transfer Reactions from Hydrocarbons and from Hydrogen," J. Catal. 159, 353-360(1996).   DOI
5 Weitkamp, J., "Zeolites and Catalysis," Solid State Ion., 131, 175-188(2000).   DOI
6 Argenauer, R. J. and Landolt, G. R., "Crystalline Zeolite ZSM-5 and Method of Preparing the Same," US Patent 3,702,886(1972).
7 Olson, D. H., Haag, W. O. and Lago, R. M., "Chemical and Physical Properties of the ZSM-5 Substitutional Series," J. Catal., 61, 390-396(1980).   DOI
8 Yang, G., He, J., Yoneyama, Y., Tan, Y., Han, Y. and Tsubaki, N., "Preparation, Characterization and Reaction Performance of HZSM-5/Cobalt/Silica Capsule Catalysts with Different Sizes for Direct Synthesis of Isoparaffins," Appl. Catal. A, 329, 99-105 (2007).   DOI
9 Lee, Y.-J., Kim, Y.-W., Viswanadham, N., Jun, K.-W. and Bae, J. W., "Novel Aluminophosphate (AlPO) Bound ZSM-5 Extrudates with Improved Catalytic Properties for Methanol to Propylene (MTP) Reaction," Appl. Catal. A, 374, 18-25(2010).   DOI   ScienceOn
10 Suzuki, H., "Composite Membrane Having a Surface Layer of an Ultrathin Film of Cage-shaped Zeolite and Processes for Production Thereof," US Patent 4,699,892(1987).
11 Rauscher, M., Selvam, T., Schwieger, W. and Freude, D., "Hydrothermal Transformation of Porous Glass Granules into ZSM-5 Granules," Micropor. Mesopor. Mat., 75, 195-202(2004).   DOI
12 Louis, B., Ocampo, F., Yun, H. S., Tessonnier, J. P. and Pereira, M. M., "Hierarchical Pore ZSM-5 Zeolite Structures: From Microto Macro-Engineering of Structured Catalysts," Chem. Eng. J., 161, 397-402(2010).   DOI
13 Eslava, S., Iacopi, F., Baklanov, M. R., Kirschhock, C. E, Maex, K. and Martens, J. A., "Ultraviolet-Assisted Curing of Polycrystalline Pure-Silica Zeolites:Hydrophobization, Functionalization, and Cross-Linking of Grains," J. Am. Chem. Soc., 129, 9288-9289(2007).   DOI
14 Seijger, G. B. F., Oudshoorn, O. L., Van Kooten, W. E. J., Jansen, J. C., Van Bekkum, H., Van Den Bleek, C. M. and Calis, H. P. A., "In Situ Synthesis of Binderless ZSM-5 Zeolitic Coatings on Ceramic Foam Supports," Micropor. Mesopor. Mat., 39, 195-204(2000).   DOI
15 Ledoux, M. J. and Pham-Huu, C. "Silicon Carbide: a Novel Catalyst Support for Heterogeneous Catalysis," Cattech, 5, 226-246 (2001).   DOI
16 Losch, P., Boltz, M., Soukup, K., Song, I. H., Yun, H. S. and Louis, B., "Binderless Zeolite Coatings on Macroporous Α-sic Foams," Micropor. Mesopor. Mat., 188, 99-107(2014).   DOI
17 Moene, R., Makkee, M. and Moulijn, J. A., "High Surface Area Silicon Carbide as Catalyst Support Characterization and Stability," Appl. Catal. A: Gen., 167, 321-330(1998).   DOI
18 Krawiec, P. and Kaskel, S. "Thermal Stability of High Surface Area Silicon Carbide Materials," J. Solid State Chem., 179, 2281-2289 (2006).   DOI
19 Ivanova, S., Vanhaecke, E., Louis, B., Libs, S., Ledoux, M. J., Rigolet, S. and Pham-Huu, C., "Efficient Synthesis of Dimethyl Ether over HZSM-5 Supported on Medium-Surface-Area $\beta$-SiC Foam," ChemSusChem, 1, 851-857(2008).   DOI
20 Jung, E. J., Lee, Y. J., Kim, S. R., Kwon, W. T., Choi, D. J. and Kim, Y., "Purification and Particle Size Control of $\beta$-SiC Powder Using Thermocycling Process," Adv. Appl. Ceram., 113, 352-357 (2014).   DOI
21 Basso, S., Tessonnier, J.-P., Cuong, P.-H., Ledoux, M. J. and Wine, Gauthier, "Zeolite/SiC Composites and Their Use in Catalysis," US Patent 7,179,764.
22 Merle-Mejean, T., Abdelmounm̂ , E. and Quintard, P. "Oxide Layer on Silicon Carbide Powder: a FT-IR Investigation," J. Mol. Struc., 349, 105-108(1995).   DOI
23 Kwon, W. T., Kim, S. R., Kim, Y., Lee, Y. J., Won, J., Park, W. K. and Oh, S. C., "Effect of Temperature and Carbon Contents on the Synthesis of $\beta$-SiC from Silicon Sludge by Direct Carbonization Method," Mater. Sci. Forum., 724, 45-48(2012).   DOI
24 Shirazi, L., Jamshidi, E. and Ghasemi, M. R., "The Effect of Si/Al Ratio of ZSM-5 Zeolite on Its Morphology, Acidity and Crystal Size," Cryst. Res. Technol., 43, 1300-1306(2008).   DOI   ScienceOn
25 Kim, H. G., Yang, Y. C., Jeong, K. E., Kim, T. W., Jeong, S. Y., Kim, C. U., Jhung, S. H. and Lee, K. Y., "Effect of Metal Addition and Silica/Alumina Ratio of Zeolite on the Ethanol-to-Aromatics by Using Metal Supported ZSM-5 Catalyst," Korean Chem. Eng. Res., 51, 418-425(2013).   DOI
26 Nawaz, Z., Xiaoping, T. and Wei, F., "Influence of Operating Conditions, Si/Al Ratio and Doping of Zinc on Pt-Sn/ZSM-5 Catalyst for Propane Dehydrogenation to Propene," Korean J. Chem. Eng., 26, 1528-1532(2009).   DOI