Chemical reactivity and magnetism of graphene

E.F.Sheka; L.A.Chernozatonskii

arXiv:0901.3757·cond-mat.mtrl-sci·January 26, 2009

Chemical reactivity and magnetism of graphene

E.F.Sheka, L.A.Chernozatonskii

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TL;DR

This paper investigates how the weak interaction of unpaired electrons in graphene influences its chemical reactivity and magnetic properties using a broken spin-symmetry approach.

Contribution

It introduces a framework that explains the peculiar behavior of odd electrons in graphene, linking reactivity and magnetism.

Findings

01

Enhanced chemical reactivity due to odd electron behavior

02

Magnetism arising from broken spin symmetry

03

Insights into electron interactions in graphene

Abstract

The basic problem of weak interaction between odd electrons in graphene is considered within the framework of broken spin-symmetry approach. The latter exhibits the peculiarities of the odd electron behavior via both enhanced chemical reactivity and magnetism.

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Taxonomy

TopicsGraphene research and applications · Advanced Physical and Chemical Molecular Interactions · Advanced Chemical Physics Studies