Items by Lukyanov, Dmitry
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Number of items: 20.
Perera, S., Chew, J., Alsharif, A. and Lukyanov, D., 2016. The influence of bore fluid concentration on porous structure in a 13X zeolite adsorbent hollow fibre for gas separation. In: Saudi conference 14-15th February 2016, Scientific Society for Saudi Arabia (organized by the University of Birmingham in the UK), 2016-02-14 - 2016-02-15, Saudi conference 14-15th February, 2016, Scientific Society for Saudi Arabia (organized by the University of Birmingham in the UK.
Foo, R., Vazhnova, T., Lukyanov, D. B., Millington, P., Collier, J., Rajaram, R. and Golunski, S., 2015. Formation of reactive Lewis acid sites on Fe/WO3–ZrO2 catalysts for higher temperature SCR applications. Applied Catalysis B: Environmental, 162, pp. 174-179.
Vazhnova, T. and Lukyanov, D. B., 2013. Fourier self-deconvolution of the IR spectra as a tool for investigation of distinct functional groups in porous materials:Brønsted acid sites in zeolites. Analytical Chemistry, 85 (23), pp. 11291-11296.
Vazhnova, T., Rigby, S. P. and Lukyanov, D. B., 2013. Benzene alkylation with ethane in ethylbenzene over a PtH-MFI catalyst:Kinetic and IR investigation of the catalyst deactivation. Journal of Catalysis, 301, pp. 125-133.
Wong, K. S., Vazhnova, T., Rigby, S. P. and Lukyanov, D. B., 2013. Temperature effects in benzene alkylation with ethane into ethylbenzene over a PtH-MFI bifunctional catalyst. Applied Catalysis A General, 454, pp. 137-144.
Lukyanov, D. B., Beckett, S. J. and Vazhnova, T., 2012. Toward better understanding of the catalytic action of acidic zeolites: investigation in methane and ethane activation and transformation. ACS Catalysis, 2 (12), pp. 2596-2601.
Lukyanov, D. B. and Vazhnova, T., 2011. Transformation of methane over platinum supported catalysts at moderate temperature. Journal of Molecular Catalysis A: Chemical, 342-343, pp. 1-5.
Chua, L. M., Vazhnova, T., Mays, T. J., Lukyanov, D. B. and Rigby, S. P., 2010. Deactivation of PtH-MFI bifunctional catalysts by coke formation during benzene alkylation with ethane. Journal of Catalysis, 271 (2), pp. 401-412.
Lukyanov, D. B. and Vazhnova, T., 2009. Selective and stable benzene alkylation with methane into toluene over PtH-MFI bifunctional catalyst. Journal of Molecular Catalysis A: Chemical, 305 (1-2), pp. 95-99.
Lukyanov, D. B. and Vazhnova, T., 2008. Highly selective and stable alkylation of benzene with ethane into ethylbenzene over bifunctional PtH-MFI catalysts. Journal of Molecular Catalysis A: Chemical, 279 (1), pp. 128-132.
Lukyanov, D. B. and Vazhnova, T., 2008. A kinetic study of benzene alkylation with ethane into ethylbenzene over bifunctional PtH-MFI catalyst. Journal of Catalysis, 257 (2), pp. 382-389.
Lukyanov, D. B. and Vazhnova, T., 2006. Active Sites in Working Bifunctional GaH-TON Aromatization Catalysts: Kinetic Evaluation. Journal of Physical Chemistry B, 110 (37), pp. 18473-18480.
Lukyanov, D. B. and Vazhnova, T., 2006. Aromatization activity of gallium containing MFI and TON zeolite catalysts in n-butane conversion: Effects of gallium and reaction conditions. Applied Catalysis A General, 316 (1), pp. 61-67.
Nguyen, L. H., Vazhnova, T., Kolaczkowski, S. T. and Lukyanov, D. B., 2006. Combined experimental and kinetic modelling studies of the pathways of propane and n-butane aromatization over H-ZSM-5 catalyst. Chemical Engineering Science, 61 (17), pp. 5881-5894.
Lukyanov, D. B., Nguyen, L. H., Vazhnova, T. and Kolaczkowski, S. T., 2005. Combined experimental and kinetic modelling studies of catalyst deactivation: propene and propane aromatisation over H-ZSM-5 catalyst. In: World Congress of Chemical Engineering, 7th, 2005-07-10 - 2005-07-14.
Kagansky, A., Freeman, L., Lukyanov, D. and Strunnikov, A., 2004. Histone Tail-independent Chromatin Binding Activity of Recombinant Cohesin Holocomplex. Journal of Biological Chemistry, 279 (5), pp. 3382-3388.
Lukyanov, D. B. and Vazhnova, T., 2001. Dehydroisomerisation of n-butane into isobutene over Ga-containing zeolite catalysts. Special Publication - Royal Society of Chemistry, 266 (Supported Catalysts ), pp. 188-195.