Issue 26, 2017

Atomistic insight into the electrode reaction mechanism of the cathode in molten carbonate fuel cells

Abstract

In an era of increasing energy demand challenges combined with simultaneous environmental protection, molten carbonate fuel cells (MCFCs) have emerged as an interesting candidate to overcome both of these issues. Although the macroscopic parameters of MCFCs have been successfully optimized, the microscopic understanding of the electrochemical catalytic reactions, which determine their performance, remains challenging due to their chemical complexity and high operation temperatures. In this paper, we propose a top-down approach to unravel the hitherto unreported electrode reaction mechanism of the cathode in MCFCs using density functional theory (DFT). The oxygen-terminated octopolar NiO(111) is predicted to facilitate cathodic transformation of carbon dioxide to carbonate anions through sequential Mars-van Krevelen (MvK) and Eley-Rideal (ER) mechanisms. This theoretical work opens up new prospects in the atomic scale computational design of the cathode material for MCFCs.

Graphical abstract: Atomistic insight into the electrode reaction mechanism of the cathode in molten carbonate fuel cells

Supplementary files

Article information

Article type
Paper
Submitted
06 Mar 2017
Accepted
04 Jun 2017
First published
05 Jun 2017

J. Mater. Chem. A, 2017,5, 13763-13768

Atomistic insight into the electrode reaction mechanism of the cathode in molten carbonate fuel cells

K. Czelej, K. Cwieka, J. C. Colmenares and K. J. Kurzydlowski, J. Mater. Chem. A, 2017, 5, 13763 DOI: 10.1039/C7TA02011B

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