Carbon Species Solvated in Molten Carbonate Electrolyser Cell from First-Principles Simulations

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Abstract

We study the solvation of molecules and ions that are key in the context of Molten Carbonate Electrolyser Cells using first-principles simulations. Focusing on the electroreduction of CO 2 to CO in a molten carbonate medium, we investigate the solvation of both the reactant CO 2 and the product CO in the eutectic LiKCO 3 , (containing 62 % Li 2 CO 3 , 38 % K 2 CO 3 ,). CO 2 is found to spontaneously react with the carbonate ions to form the transient pyrocarbonate species, C 2 O 5 2- . To investigate the similar reaction that could occur with CO and CO 3 2- to form an oxalate, we simulated that species and found it to be stable in the melt, supporting this hypothesis. We further present the solvation of O 2- , finding that it shows preferential formation of a complex with four lithium cations in a tetrahedral arrangement. Estimates of the diffusion coefficients of these species are then reported, showing that CO has the faster diffusion of all the molecules and ions studied.

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last seen: 2026-05-19T01:45:01.086888+00:00
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License: CC-BY-NC-ND-4.0