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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1064Oxidation of Cyclohexene over Mesoporous Silica...

Oxidation of Cyclohexene over Mesoporous Silica Pillared Clay Incorporated with Heteropoly Acid Prepared by Sol Gel Method

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Abstract:

Mesoporous silica pillared clay (SPC) materials with different contents of H₄PMo₁₁VO₄₀ (PVMo) heteropoly acid were synthesized by introducingPVMo into clay interlayer template in an acidic suspension using sol–gel method. The results of the characterizations showed that PVMo was dispersed homogeneously in the encapsulated samples. The encapsulated materials exhibited good catalytic performance in oxidation of cyclohexene.

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Materials Science and Technology

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Periodical:

Advanced Materials Research (Volume 1064)

Pages:

71-76

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1064.71

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Online since:

December 2014

Authors:

S. Boudjema, A. Choukchou-Braham, R. Bachir

Keywords:

Cyclohexene, Heteropolyanions, Mesoporous Silica Pillared Clay, Montmorillonite, Oxidation

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© 2015 Trans Tech Publications Ltd. All Rights Reserved

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[1] D.E. De Vos, B.F. Sels, P.A. Jacobs, Adv. Synt. Cata. Vol. 345 (2003), p.457.

[2] M. Dusi, T. Mallat, A. Baiker, Cata. Rev. Vol 42 (2000), p.213.

[3] M.T. Pope, Y. Jeannin, M. Fournier, Heteropoly and isopoly oxometalates, Springer-Verlag Berlin, (1983).

[4] T. Okuhara, N. Mizuno, M. Misono, Appl. Catal. A. Vol. 222 (2001), p.63.

[5] M. Pope, Polyoxometalates: From Platonic Solids to Anti-Retroviral Activity: From Platonic Solids to Anti-Retroviral Activity, Springer, (1994).

DOI: 10.1007/978-94-011-0920-8

[6] J.B. Moffat, Metal-oxygen clusters: the surface and catalytic properties of heteropoly oxometalates, Springer, (2001).

[7] M. Pope, A. Müller, Polyoxometalate chemistry from topology via self-assembly to applications, Springer, (2001).

[8] D.P. Sawant, A. Vinu, J. Justus, P. Srinivasu, S.B. Halligudi, J. Mol. Catal. A. Vol. 276 (2007), p.150.

[9] M.E. Chimienti, L.R. Pizzio, C.V. Caceres, M.N. Blanco, Appl. Catal. A. Vol. 208 (2001), p.7.

[10] P. Sharma, A. Patel, Appl. Surf. Sci. Vol. 255 (2009), p.7635.

[11] S. Tangestaninejad, V. Mirkhani, M. Moghadam, I. Mohammadpoor-Baltork, E. Shams, H. Salavati, Ultrason. Sonchem. Vol. 15 (2008), p.438.

DOI: 10.1016/j.ultsonch.2007.06.009

[12] T. Ressler, U. Dorn, A. Walter, S. Schwarz, A.H.P. Hahn, J. Catal. Vol. 275 (2010) 1.

[13] E. Rafiee, F. Shahbazi, M. Joshaghani, F. Tork, J. Mol. Catal. A. Vol. 242 (2005) 129.

[14] L. Chen, X. Wang, X. Guo, H. Guo, H. o. Liu, Y. Chen, Chem. Eng. Sci. Vol. 62 (2007), p.4469.

[15] Q. Li, Q. -Y. Yue, H. -J. Sun, Y. Su, B. -Y. Gao, J. Env. Manag. Vol. 91 (2010) 1601.

[16] B. Li, H. Mao, X. Li, W. Ma, Z. Liu, J. Coll. Inter. Sci. Vol. 336 (2009), p.244.

[17] H. Mao, B. Li, L. Yue, L. Wang, J. Yang, X. Gao, Appl. Clay Sci. Vol. 53 (2011) 676.

[18] H. Mao, B. Li, X. Li, L. Yue, Z. Liu, W. Ma, Indust. Eng. Chem. Res. Vol. 49 (2009), p.583.

[19] H. Mao, B. Li, X. Li, L. Yue, J. Xu, B. Ding, X. Gao, Z. Zhou, Micro. Meso. Mat. Vol. 130 (2010), p.314.

[20] O.T. T. Ressler, F. Girgsdies, J. Wienold, T. Neisius, J. Catal. Vol. 231 (2005), p.279.

[21] P. Villabrille, G. Romanelli, L. Gassa, P. Vazquez, C. Caceres, Appl. Catal. A. Vol. 324 (2007), p.69.

[22] J.P. Chen, M.C. Hausladen, R.T. Yang, J. Catal. Vol. 151 (1995), p.135.

[23] G. Brindley, Eng. Geol. Vol. 11 (1977), p.97.

[24] J. Temuujin, T. Jadambaa, G. Burmaa, S. Erdenechimeg, J. Amarsanaa, K.J.D. MacKenzie, Ceram. Inter. Vol. 30 (2004), p.251.

DOI: 10.1016/s0272-8842(03)00096-8

[25] R.Q. Long, R.T. Yang, J. Catal. Vol. 207 (2002), p.224.

[26] A. Ghanbari-Siahkali, A. Philippou, J. Dwyer, M.W. Anderson, Appl. Catal. A. Vol. 192 (2000), p.57.

[27] B. Li, Z. Liu, J. Liu, Z. Zhou, X. Gao, X. Pang, H. Sheng, J. Coll. Inter. Sci. Vol. 362 (2011), p.450.

[28] C. Rocchiccioli-Deltcheff, M. Fournier, R. Franck, R. Thouvenot, Inorg. Chem. Vol. 22 (1983), p.207.

[29] S. Benadji, P. Eloy, A. Leonard, B.L. Su, K. Bachari, C. Rabia, E.M. Gaigneaux, Micro. Meso. Mat. Vol. 130 (2010), p.103.

[30] N.K.K. Raj, A.V. Ramaswamy, P. Manikandan, J. Mol. Catal. A: Chem. Vol. 227 (2005), p.37.

[31] B.M. Reddy, I. Ganesh, B. Chowdhury, Catal. Today. Vol. 49 (1999), p.115.

[32] S. Shylesh, A.P. Singh, J. Catal. Vol. 228 (2004), p.333.

[33] K.V. Bineesh, D. -K. Kim, M. -I. Kim, D. -W. Park, Appl. Clay Sci. Vol. 53 (2011), p.204.

[34] G.R. Rao, B.G. Mishra, Mater. Chem. Phys. Vol. 89 (2005), p.110.

[35] F. Rojas, I. Kornhauser, C. Felipe, J.M. Esparza, S. Cordero, A. Dominguez, J.L. Riccardo, Phys. Chem. Chem. Phys. Vol. 4 (2002), p.2346.

DOI: 10.1039/b108785a

[36] Q.H. Xia, K. Hidajat, S. Kawi, J. Catal. Vol. 209 (2002), p.433.

[37] S. Ajaikumar, A. Pandurangan, Appl. Catal. A. Vol. 357 (2009), p.184.