Rakesh Batchu scite author profile

Ethanol dehydration to ethene is mechanistically decoupled from the production of higher hydrocarbons due to complete surface coverage by adsorbed ethanol and diethyl ether (DEE). The production of C3+ hydrocarbons was found to be unaffected by water present in the reaction mixture. Three routes for the production of C3+ hydrocarbons are identified: the dimerization of ethene to butene and two routes involving two different types of surface species categorized as aliphatic and aromatic. Evidence for the different types of species involved in the production of higher hydrocarbons is obtained via isotopic labeling, continuous flow and transient experiments complemented by UV/Vis characterization of the catalyst and ab initio microkinetic modeling.

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Ethanol dehydration pathways in H-ZSM-5: Insights from temporal analysis of products

Batchu

Galvita

Alexopoulos

et al. 2020

Catalysis Today

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Mechanism of carbon deposits removal from supported Ni catalysts

Theofanidis

Galvita

Poelman

et al. 2018

Applied Catalysis B: Environmental

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TAPsolver: A Python package for the simulation and analysis of TAP reactor experiments

Yonge

Kunz

Batchu

et al. 2021

Chemical Engineering Journal

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Rakesh Batchu

Carbon gasification from Fe–Ni catalysts after methane dry reforming

Insights into the Reaction Mechanism of Ethanol Conversion into Hydrocarbons on H‐ZSM‐5

Ethanol dehydration pathways in H-ZSM-5: Insights from temporal analysis of products

Mechanism of carbon deposits removal from supported Ni catalysts

TAPsolver: A Python package for the simulation and analysis of TAP reactor experiments

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