Issue

Vol. 25 No. 5 (2013): Vol 25 Issue 5

Copyright (c) 2013 AJC

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Vapour Phase Ethylation of Benzene Over ZSM-5 Synthesized in Fluoride Medium

https://doi.org/10.14233/ajchem.2013.13638
S. Hariharan
Department of Chemistry, Anna University, Chennai-600 025, India
M. Palanichamy
Department of Chemistry, Anna University, Chennai-600 025, India
V. Murugesan
Department of Chemistry, Anna University, Chennai-600 025, India

Corresponding Author(s) : M. Palanichamy

palani_annachem@yahoo.com; igooha1@gmail.com

Asian Journal of Chemistry, Vol. 25 No. 5 (2013): Vol 25 Issue 5

Abstract

ZSM-5 zeolite (Si/Al ratio 50, 75 and 100) was hydrothermally synthesized in fluoride medium. Their crystal size and crystallinity were high. SEM images of synthesized material showed large elongated prismatic crystals. Their catalytic activity was examined for vapour phase ethylation of benzene between 200 and 400 ºC. The ethylbenzene conversion was high at 300 ºC compared with other temperatures. The selectivity of ethylbenzene was high at low ethanol content in the feed, but decreased with an increase in ethanol content. Among the diethyl benzene isomers the selectivity of p-diethyl benzene was higher than others. High selectivity of p-diethyl benzene was due to large crystal size and high crystallinity. Hence synthesis of ZSM-5 in fluoride medium could catalyze para selective ethylation of ethylbenzene. The same catalyst could also be applied to other selective alkylations.

Keywords

ZSM-5 Fluoride media Benzene Ethylation
Hariharan, S., Palanichamy, M., & Murugesan, V. (2012). Vapour Phase Ethylation of Benzene Over ZSM-5 Synthesized in Fluoride Medium. Asian Journal of Chemistry, 25(5), 2679–2682. https://doi.org/10.14233/ajchem.2013.13638
Download Citation
Endnote/Zotero/Mendeley (RIS)
BibTeX
References
  1. N. Ren, J. Bronic, B. Subotic, X. Lv, Y. Yang and Y. Tang, Micropor. Mesopor. Mater., 139, 197 (2011).
  2. R. Aiello, F. Crea, E. Nigro, F. Testa, R. Mostrowica, A. Fonceca and J.B. Nagy, Micropor. Mesopor. Mater., 28, 241 (1999).
  3. G.A. Olah, J. Kaspi and J. Bukala, J. Org. Chem., 42, 4187 (1977).
  4. K.J.A. Raj, M.S. Meenakshi and V.R. Vijayaraghavan, J. Mol. Catal. A, 270, 195 (2007).
  5. Y.S. Bhat, J. Das and A.B. Halgeri, Appl. Catal. A., 122, 161 (1995).
  6. C.A. Hoch Walt, U.S. Patent 390,368 (1945).
  7. B.M. Lok, C.A. Messina, R.L. Patton, R.T. Gajek, T.R. Cannan and E.M. Flanigen, J. Am. Chem. Soc., 106, 6092 (1984).
  8. S.P. Elangovan, V. Krishnasamy and V. Murugesan, Hung. J. Ind. Chem., 36, 271 (1996).
  9. V.R. Vijayaraghavan and K.J.A. Raj, J. Mol. Catal. A, 207, 41 (2004).
  10. M. Firoozi, M. Baghalha and M. Asadi, Catal. Commun., 10, 1582 (2009).
  11. J. Arichi and B. Louis, Cryst. Growth Des., 8, 3999 (2008).
  12. I.V. Mishin, H.K. Beyer and H.G. Karge, Appl. Catal. A, 180, 207 (1999).
  13. B. Rajesh, M. Palanichamy, V. Kanasky, V. Murugesan, Mol. Catal. A, 187, 259 (2002).
Read More
Author biographies is not available.
Download
PDF
Statistic
Read Counter : 0 Download : 0