24. U. Menon, M. Rahman, S.J. Khatib*, A critical literature review of the advances in methane dehydroaromatization over multifunctional metal-promoted zeolite catalysts, Applied Catalysis A: General, 608, 117870 (2020).


23. M. Rahman, A. Infantes-Molina, A. Hoffman, S. Bare, K. Emerson, S.J. Khatib*, Effect of Si/Al ratio of ZSM-5 support on structure and activity of Mo species in methane dehydroaromatization, Fuel, 278, 118290 (2020).


22. A. Sridhar, M. Rahman, A. Infantes-Molina, A., B.J. Wylie, C.G. Borcik, S.J. Khatib*, Bimetallic Mo-Co/ZSM-5 and Mo-Ni/ZSM-5 catalysts for methane dehydroaromatization: a study of the effect of pretreatment and metal loadings on the catalytic behavior, Applied Catalysis A: General, 589, 117247 (2020).

21. M. Rahman, A. Infantes-Molina, A. Boubnov, S.R. Bare, E. Stavitski, A. Sridhar, S.J. Khatib*, Increasing the catalytic stability by optimizing the formation of zeolite-supported Mo carbide species ex situ for methane dehydroaromatization, Journal of Catalysis, 375, 314-328 (2019). (Editor highlight for 2020 May edition of Journal of Catalysis)


20. D. Vovchok, J. Tata, I. Orozco, F. Zhang, R.M. Palomino, W. Xu, L. Harper, S.J. Khatib, J.A. Rodriguez, S.D. Senanayake, Location and chemical speciation of Cu in ZSM-5 during water-gas shift reaction, Catalysis Today, 323, 216-224 (2019).


19. A. Sridhar, M. Rahman, S.J. Khatib*, Enhancement of Mo/ZSM-5 catalysts in methane aromatization by addition of Fe promoters and by reduction/carburization pretreatment, ChemCatChem, 10 (12), 2571-2583 (2018). (Cover feature)


18. M. Rahman, A. Sridhar, S.J. Khatib*, Impact of the presence of Mo carbide species prepared ex situ in Mo/HZSM-5 on the catalytic properties in methane aromatization, Applied Catalysis A: General, 558, 67-80 (2018).


17. V. Sánchez-Gil, E. Noya, A. Sanz, S.J. Khatib, J.M. Guil, E. Lomba, R. Marguta, S. Valencia, Experimental and simulation studies of the stepped adsorption of toluene on pure-silica MEL zeolite, Journal of Physical Chemistry: C, 120, 16, 8640-8652 (2016).


16. S.J. Khatib*, S.T. Oyama*, Direct oxidation of propylene to propylene oxide with molecular oxygen: a review, Catalysis Reviews, 57, 3, 306-344 (2015).


15. A. Gallardo, J.M. Guil, E. Lomba, N.G. Almarza, S.J. Khatib, C. Cabrillo, A. Sanz, J. Pires, Adsorption of probe molecules in pillared interlayered clays: experiment and computer simulations, Journal of Chemical Physics, 140, 22, 224701 (2014).

14. S.J. Khatib, S. Yun, S.T. Oyama, Sulfur resistance by phosphidation of Pd and Pd alloy membranes, Journal of Membrane Science, 455, 283-293 (2014).

13. S.J. Khatib*, S.T. Oyama, Silica membranes for hydrogen separation prepared by chemical vapor deposition (CVD), Separation and Purification Technology, 111, 20-42 (2013).

12. Z. Wang, Z., L. E. K. Achenie, S.J. Khatib, S.T. Oyama, Mixed mechanism model for permeation of gases in hybrid inorganic-organic membranes, Industrial and Engineering Chemistry Research, 52 (9), 3258-3265 (2013).

11. Z. Wang, Z., L.E.K. Achenie, S.J. Khatib, S.T. Oyama, Simulation study of permeation of CO2 and CH4 in hybrid inorganic-organic membrane, Journal of Membrane Science, 387-388, 30-39 (2012).

10. Y. Gu, B. Vaezian, S.J. Khatib, S.T. Oyama, Z. Wang, L. Achenie, Hybrid H2-selective silica membranes prepared by chemical vapour deposition, Separation Science and Technology, 47, 1698-1708 (2012).

9. S.J. Khatib, S.T. Oyama, K.R. de Souza, F.B. Noronha, Review of silica membranes for hydrogen separation prepared by chemical vapor deposition, Membrane Science and Technology ,14, 25-60 (2011).

8. R. Marguta, S.J. Khatib, J.M. Guil, E. Lomba, E. G. Noya, J.A. Perdigón-Melón, S. Valencia, Molecular simulation and adsorption studies of n-hexane in ZSM-11 zeolites, Microporous & Mesoporous Materials, 142, 258-267 (2011).

7. S.J. Khatib, J.L.G. Fierro, M.A. Bañares, Effect of phosphorous additive on the surface chromium oxide species on alumina for propane oxidation to propylene, Topics in Catalysis, 52, 1459-1469 (2009).

6. L. Yuan, V.V. Guliants, M.A. Bañares, S.J. Khatib, Mesoporous niobium-based mixed metal oxides containing Mo, V and Te for propane oxidative dehydrogenation, Topics in Catalysis, 49, 268-280 (2008).

5. S.J. Khatib, R. Guil‑López, M.A. Peña, J.L.G. Fierro, M.A. Bañares, Alumina-supported V-Mo-O mixed oxide catalysts, the formation of phases involving aluminum: AlVMoO7, Catalysis Today, 118, 353-359 (2006).

4. M.A. Garcia, M.L. Ruiz Gonzalez, A. Quesada, J.L. Costa-Kramer, J.F. Fernandez, S.J. Khatib, A. Wennberg, A.C. Caballero, M.S. Martin-Gonzalez, M. Villegas, F. Briones, J.M. Gonzalez-Calbet, A. Hernando, Interface double-exchange ferromagnetism in the Mn-Zn-O system: New class of biphase magnetism, Physical Review Letters, 94 (21) Art. No. 217206, (2006).

3. J.F. Fernández, A.C. Caballero, M. Villegas, S.J. Khatib, M.A. Bañares, J.L.G. Fierro, E.  Costa- Kramer, M.S. López-Once, F. Martin-González, A. Briones, M. Quesada, A. García, J.L. Hernando, Structure and magnetism in the Zn-Mn-O system: A candidate for room temperature ferromagnetic semiconductor, Journal of the European Ceramic Society, 26, 3017-3025 (2006).

2. M.A. Bañares, S.J. Khatib, Structure-activity relationships in alumina-supported molybdena-vanadia catalysts for propane oxidative dehydrogenation, Catalysis Today, 96, 251 (2004).


1. G. Mul, M.A. Bañares, G. Garcia Cortéz, B. van der Linden, J.A. Moulijn, MultiTRACK and Operando Raman-GC study of oxidative dehydrogenation of propane over alumina-supported vanadium oxide catalyst, Physical Chemistry Chemical Physics, 5, 4378-4383 (2003). 

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