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Alkaline earth metal alloys of Cu for enhanced catalytic activity toward CO2 hydrogenation

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dc.contributor.author Thakkar, Kavita
dc.contributor.author Joshi, Kavita
dc.date.accessioned 2022-12-27T05:25:27Z
dc.date.available 2022-12-27T05:25:27Z
dc.date.issued 2022-12-27
dc.identifier.citation Manuscript submitted to New Journal of Chemistry en
dc.identifier.uri http://dspace.ncl.res.in:8080/xmlui/handle/20.500.12252/6172
dc.description.abstract CO2, a well-known greenhouse gas, is a potential raw material used to produce various chemicals. Dissociation of CO2 to CO or hydrogenation to formate (HCOO) or carboxyl (COOH) intermediate is crucial in determining the reaction pathway for CO2 conversion. In this work, we demonstrate that alloys of Mg-Cu exhibit greater activity toward activation and hydrogenation of CO2 than transition metal alloys reported so far. Two different compositions of Mg-Cu, namely Mg2Cu and MgCu2, have been studied using periodic Density Functional Theory (DFT). Our investigations reveal that CO2 chemisorbs on both bimetallic alloys. Coadsorption of CO2 with H2O leads to the spontaneous formation of COOH∗ over Mg2Cu(224), whereas a negligible barrier (0.04 eV) is observed for MgCu2 (311). HCOO∗ formation has a barrier of 0.34 eV and 0.42 eV on Mg2Cu(224) and MgCu2(311), respectively. Dissociation of CO2 to CO is kinetically unfavorable on both compositions of Mg-Cu. We provide a rationale for the observed activity by analyzing the electronic structure. Notably, the spontaneous hydrogenation of CO2 makes earth-abundant metals suitable candidates for alloying that await experimental verification. en
dc.description.sponsorship Authors gratefully acknowledges CSIR Fourth Paradigm Institute and National Supercom-puting Mission (NSM) for providing computing resources of “PARAM Brahma” at IISER Pune, which is implemented by C-DAC and supported by the Ministry of Electronics and Information Technology (MeitY) and Department of Science and Technology (DST), Gov-ernment of India. KT acknowledges CSIR for research fellowship. en
dc.format.extent 19 p. en
dc.language.iso en_US en
dc.subject Earth Metal Alloys en
dc.subject CO2 hydrogeneration en
dc.title Alkaline earth metal alloys of Cu for enhanced catalytic activity toward CO2 hydrogenation en
dc.type Preprint en
local.division.division Physical and Materials Chemistry Division en
dc.description.university -- en


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