Faradaic processes beyond Nernst's law: Density functional theory assisted modelling of partial electron delocalisation and pseudocapacitance in graphene oxides

Junfu Li; James O'Shea; Xianghui Hou; George Z. Chen

doi:10.1039/c7cc04344a

Faradaic processes beyond Nernst's law: Density functional theory assisted modelling of partial electron delocalisation and pseudocapacitance in graphene oxides

Junfu Li, James O'Shea, Xianghui Hou, George Z. Chen

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36 Scopus citations

Abstract

The study of electron delocalisation in oxygen atom segregated zones in graphene, aided by the first-principles density functional theory, has revealed extra energy bands of ≥2 eV wide around the Fermi level, predicting Faradaic charge storage occurring in a wide range of potentials, which disagrees with Nernst's law but accounts well for the so called pseudocapacitance of heteroatom-modified graphene based electrode materials in supercapacitors.

Original language	English
Pages (from-to)	10414-10417
Number of pages	4
Journal	Chemical Communications
Volume	53
Issue number	75
DOIs	https://doi.org/10.1039/c7cc04344a
State	Published - 2017
Externally published	Yes

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AU - Hou, Xianghui

AU - Chen, George Z.

PY - 2017

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AB - The study of electron delocalisation in oxygen atom segregated zones in graphene, aided by the first-principles density functional theory, has revealed extra energy bands of ≥2 eV wide around the Fermi level, predicting Faradaic charge storage occurring in a wide range of potentials, which disagrees with Nernst's law but accounts well for the so called pseudocapacitance of heteroatom-modified graphene based electrode materials in supercapacitors.

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Faradaic processes beyond Nernst's law: Density functional theory assisted modelling of partial electron delocalisation and pseudocapacitance in graphene oxides

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