Computational and experimental evidence for a new TM–N 3 /C moiety family in non-PGM electrocatalysts

Kabir, Sadia Afrin; Artyushkova, Kateryna; Kiefer, Boris; Atanassov, Plamen

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Royal Society of Chemistry, Physical Chemistry Chemical Physics, 27(17), p. 17785-17789, 2015

DOI: 10.1039/c5cp02230d

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Computational and experimental evidence for a new TM–N 3 /C moiety family in non-PGM electrocatalysts

Journal article published in 2015 by Sadia Afrin Kabir, Kateryna Artyushkova, Boris Kiefer, Plamen Atanassov

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Abstract

In the present work, we demonstrate that the formation energies of previously unexplored single and double carbon vacancy based TM–N3/C defect moieties are favourable. This prediction suggests that these defect motifs, in particular DV-Fe–N3/C can form during high-temperature catalyst synthesis. Defect specific N 1s core-level shifts were computed from first-principles for the deconvolution of XPS observations.

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Computational and experimental evidence for a new TM–N 3 /C moiety family in non-PGM electrocatalysts

Abstract