Comparative investigation of Ga- and In-CHA in the non-oxidative ethane dehydrogenation reaction

Ga- and In-exchanged chabazite (CHA) zeolites with same Si/Al and metal/Al ratios were prepared via the incipient wetness impregnation method, were characterized using N2 adsorption, electron microscopy, temperature-programed reactions and were evaluated for the ethane dehydrogenation reaction using...

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Veröffentlicht in:	Journal of catalysis 2022-08, Vol.413 (C)
Hauptverfasser:	Pan, Jian, Lee, Jason, Li, Muyuan, Trump, Benjamin A., Lobo, Raul F.
Format:	Artikel
Sprache:	eng
Schlagworte:	Activation energy Alkane dehydrogenation Chemistry Engineering INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY Oxidative addition Reaction mechanism Sustainable chemistry
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description	Ga- and In-exchanged chabazite (CHA) zeolites with same Si/Al and metal/Al ratios were prepared via the incipient wetness impregnation method, were characterized using N2 adsorption, electron microscopy, temperature-programed reactions and were evaluated for the ethane dehydrogenation reaction using flow microreactors. Ga-CHA has higher reaction rates and a lower activation energy of 107 kJ/mol than In-CHA (Ea = 175 kJ/mol). Rietveld refinement of the X-ray powder diffraction pattern shows that the In+ cation is predominantly located above the 6-ring of the CHA cage. It is proposed that the reaction proceeds through the alkyl mechanism based on stability of alkyl hydride intermediates as determined using DFT calculations. The oxidative addition of ethane to the metal shows much lower Gibbs free energy for Ga-CHA (+27.95 kJ/mol) vs In-CHA (+124.85 kJ/mol). Finally, these results indicate that oxidative addition may be the rate-limiting step of ethane dehydrogenation in these materials.
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Ga-CHA has higher reaction rates and a lower activation energy of 107 kJ/mol than In-CHA (Ea = 175 kJ/mol). Rietveld refinement of the X-ray powder diffraction pattern shows that the In+ cation is predominantly located above the 6-ring of the CHA cage. It is proposed that the reaction proceeds through the alkyl mechanism based on stability of alkyl hydride intermediates as determined using DFT calculations. The oxidative addition of ethane to the metal shows much lower Gibbs free energy for Ga-CHA (+27.95 kJ/mol) vs In-CHA (+124.85 kJ/mol). 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subjects	Activation energy Alkane dehydrogenation Chemistry Engineering INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY Oxidative addition Reaction mechanism Sustainable chemistry
title	Comparative investigation of Ga- and In-CHA in the non-oxidative ethane dehydrogenation reaction
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