M. Pagliaro, R. Ciriminna, H. Kimura, M. Rossi, and C. D. Pina, Angew. Chem

. Inter and . Ed, , vol.46, p.4434, 2007.

C. Len and R. Luque, Sus. Chem. Proc, vol.2, p.1, 2014.

J. F. Izquierdo, M. Montiel, I. Palés, P. R. Outón, M. Galán et al.,

M. Villarrubia, M. P. Izquierdo, X. Hermo, R. Ariza, and . Sus, En. Rev, p.16, 2012.

M. Sutter, E. D. Silva, N. Duguet, Y. Raoul, E. Métay et al., Chem. Rev, vol.115, p.8609, 2015.

C. Cannilla, G. Bonura, L. Frusteri, and F. Frusteri, Chem. Eng. J, vol.282, p.187, 2015.

E. Theodore and K. R. Edlund, US patent 1968033A (1934) to Shell

K. Klepá?ová, D. Mravec, and M. Bajus, Appl. Catal. A: Gen, vol.294, p.141, 2005.

K. Y. Nandiwale, S. E. Patil, and V. V. Bokade, En. Tech, vol.2, p.446, 2014.

M. D. González, Y. Cesteros, and P. Salagre, Appl. Catal. A: Gen, vol.450, p.178, 2013.

K. Klepá?ová, D. Mravec, A. Kaszonyi, and M. Bajus, Appl. Catal. A: Gen, vol.328, 2007.

D. Mravec, A. Turan, A. Filková, N. Mikesková, E. Volkovicsová et al.,

F. Harnos, J. Lónyi, A. Valyon, and . Kaszonyi, Fuel Proc. Tech, vol.159, p.111, 2017.

M. D. González, P. Salagre, M. Linares, R. García, D. Serrano et al.,

, Catal. A: Gen, vol.473, p.75, 2014.

N. Simone, W. A. Carvalho, D. Mandelli, and R. Ryoo, J. Mol. Catal A: Chem, vol.422, p.115, 2016.

P. B. Weisz, V. J. Frillette, and V. J. , J. Phys Chem, vol.64, p.382, 1960.

M. Csicsery, Shape -selective catalysis, Zeolite chemistry 610 and catalysis, vol.12, pp.680-713, 1976.

E. G. Derouane, J. Mol. Cat. A Chem, vol.134, p.29, 1998.

K. Okada, T. Tomita, Y. Kameshima, A. Yasumori, K. J. Mackenzie et al.,

, Inter Sc, vol.219, p.195, 1999.

R. B. Borade and A. Clearfield, Micro. Mat, vol.5, p.289, 1996.

N. Lauridant, T. J. Daou, G. Arnold, J. Patarin, D. Faye et al., Meso. Mat, vol.166, p.79, 2013.

K. Na, C. Jo, J. Kim, K. Cho, J. Jung et al.,

. Ryoo, Science, vol.333, p.328, 2011.

A. Astafan, M. A. Benghalem, Y. Pouilloux, J. Patarin, N. Bats et al.,

L. Daou and . Pinard, J. Catal, vol.336, p.1, 2016.

I. Kabalan, I. Khay, H. Nouali, A. Ryzhikov, B. Lebeau et al.,

B. Fadlallah, J. Toufaily, T. Hamieh, J. Patarin, and T. J. Daou, J. Phys. Chem. C, vol.119, p.18074, 2015.

J. M. Coutanceau, C. Alvarez, and M. Guisnet, J. Chim. Phys. Physico-Chim

, Biol, vol.94, p.765, 1997.

S. K. Saxena, A. A. Al-muhtaseb, and N. Viswanadham, Fuel, p.837, 2015.

M. Guisnet, P. Ayrault, and J. Datka, Pol. J. Chem, vol.71, p.1455, 1997.

M. A. Makarova, K. Karim, and J. Dwyer, Micro. Mat, vol.4, p.243, 1995.

C. A. Emeis, J. Catal, vol.141, p.347, 1993.

G. Shi and H. Zhang, J. Quant. Spect. Rad. Tans, vol.105, p.459, 2007.

A. Bauer, M. Godon, J. Carlier, Q. Ma, and R. H. Tipping, J. Quant. Spect. Rad. Tans, vol.632, p.463, 1993.

M. T. Tran, N. S. Gnep, G. Szabo, and M. Guisnet, J. Catal, vol.174, p.185, 1998.

V. C. Nguyen, N. Q. Bui, P. Mascunan, T. T. Vu, P. Fongarland et al., , p.635

, Appl. Catal. A Gen, vol.552, p.184, 2018.

J. Kim, K. Cho, and R. Ryoo, Appl. Catal. A: Gen, vol.470, p.420, 2014.

K. Kim, R. Ryoo, H. Jang, and M. Choi, J. Catal, vol.288, p.115, 2012.

B. Xu, C. Sievers, S. B. Hong, R. Prins, and J. A. Van-bokhoven, J. Catal, p.244, 2006.

C. V. Mc-daniel and P. K. ,

Z. Maher, A. Catalysis, and . Monograph, , p.641

W. D. , , p.266, 1976.

P. K. Maher, F. D. Hunter, and J. Scherzer, Moecular sieve Zeolites-1, vol.643, p.266, 1970.

R. D. Shannon, K. H. Gardner, R. H. Staley, G. Bergeret, P. Gallezot et al.,

, Phys. Chem, vol.89, p.4478, 1985.

W. O. Haag, R. M. Lago, and P. B. Weisz, Nature, vol.309, p.589, 1984.

S. M. Babitz, B. A. Williams, J. T. Miller, R. Q. Snurr, W. O. Haag et al.,

, Catal. A: Gen, vol.179, p.71, 1999.

T. F. Narbeshuber, H. Vinek, and J. A. Lercher, J. Catal, vol.157, p.388, 1995.

C. Mirodatos and D. Barthomeuf, J. Chem. Soc. Chem. Commun, p.39, 1981.

M. Niwa, S. Sota, and N. Katada, Catal. today, p.17, 2012.

W. O. Haag, R. M. Dessau, and R. M. Lago, Stud. Surf. Sci. Catal, vol.60, p.255, 1991.

S. Li, A. Zheng, Y. Su, H. Zhang, L. Chen et al.,

. Soc, , vol.129, p.11161, 2007.

R. Gounder, A. J. Jones, R. T. Carr, and E. Iglesia, J. Catal, vol.286, p.214, 2012.

W. O. Hagg, R. M. Lago, and P. B. Weisz, Faraday Discuss. Chem. Soc, vol.72, p.317, 1981.

R. Gounder and E. Iglesia, Chem. Commun, vol.49, pp.3491-3509, 2013.

A. J. Jones, R. T. Carr, S. I. Zones, and E. Iglesia, ACS Catal, vol.5, p.5741, 2015.

M. L. Sarazen, E. Doskocil, and E. Iglesia, J. Catal, vol.344, p.553, 2016.

W. Kiatkittipong, W. Intaracharaoen, P. Laosiripojana, N. Chaisuk, and C. Praserthdam, , p.661

P. Assabumrungrat and S. Comp, Chem. Eng, vol.35, p.2034, 2011.

L. Constantinou and R. Gani, AICHE Journal, vol.40, p.1697, 1994.

P. M. Pico, A. Romero, S. Rodriguez, and A. Santos, Ind. Eng. Chem. Res, p.51, 2012.

R. S. Karinen and A. O. Krause, Appl. Catal. A: Gen, vol.306, p.128, 2006.

F. Frusteri, F. Arena, G. Bonura, C. Cannilla, I. Sparado et al., Appl. Catal

A. Gen, , vol.367, p.77, 2009.

S. R. Blaszkowski and R. A. Van-santen, J. Am. Chem. Soc, vol.118, p.669, 1996.

F. W. Kirsch, J. D. Potts, and D. S. Barmby, J. Catal, vol.27, p.142, 1972.

J. P. Van-den, J. P. Berg, A. D. Wolthuizen, G. R. Clague, R. Hays et al.,

. Hoff, J. Catal, vol.80, p.130, 1983.

P. B. Venuto and P. S. Landis, Adv. Catal, vol.18, p.673, 1968.

M. Xu, J. H. Lunsford, D. W. Goodman, and A. Bhattacharyya, Appl. Catal. A. Gen, vol.149, p.289, 1997.

F. Yaripour, M. Mollavali, S. M. Jam, and H. Atashi, Energy Fuels, vol.23, p.1896, 2009.

J. R. Copeland, I. A. Santillan, S. M. Schimming, J. L. Ewbank, and C. Sievers, J. Phys

, Chem. C, vol.117, p.21413, 2013.

M. Guidotti, C. Canaff, J. Coustard, P. Magnoux, and M. Guisnet, J Catal, vol.230, p.375, 2005.

P. Magnoux, P. Cartraud, S. Mignard, and M. Guisnet, J. Catal, vol.106, p.235, 1987.

P. M. Veiga, A. C. Gomes, C. O. Veloso, and C. A. Henriques, Appl. Catal. A. Gen, vol.548, p.2, 2017.

O. Levenspiel, Chemical reaction engineering, 3 rd Edition Wiley, 1999.

S. Li, V. A. Tuan, J. L. Falconer, and R. D. Noble, J. Memb. Sci, vol.191, p.53, 2001.

M. Guisnet and P. Magnoux, Zeolite Microporous Solids: Synthesis, E Derouane

C. Lemos, F. R. Naccache, and . Ribeiro, , p.457, 1992.

H. Sammoury, J. Toufaily, K. Cherry, T. Hamieh, Y. Pouilloux et al.,

, Catal. A. Gen, vol.551, p.1, 2018.

, 18 g of sulfuric acid (Aldrich) were then added. After homogenization, 2.13 g of TEOS was added, and a white gel with the following molar composition

, After synthesis, the product was recovered by filtration, washed with distilled water, and dried overnight at 373 K. The surfactant was finally removed by -directing agent. Sodium hydroxide (Riedel de Haen, 99%), sodium aluminate (56.7 wt % Al 2 O 3 , 39.5 wt % Na 2 O), tetraethoxysilane (TEOS, Aldrich, 98%) and ethanol (99%) were dissolved in deionized water in a 45 mL Teflon-lined stainless steel autoclave. After homogenization, C 18?6?6 C 18 was added to set the molar composition of the gel to 100SiO 2 :22Na 2 O: 2.5Al 2 O 3 :5C 18?6?6 C 18 :800ETOH:7100H 2 O. The gel was stirred at 1000 rpm for 6 h at 333 K, and then placed in a tumbling oven

R. J. Wijngaarden, A. Kromberg, and K. R. Westerrterp, Industrial Catalysis : Optimizing catalysts and Processes, 1998.