p-type surface doping of diamond: A first-principles study

JP Goss; B Hourahine; R Jones; MI Heggie; PR Briddon

doi:10.1088/0953-8984/13/40/313

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p-type surface doping of diamond: A first-principles study

Journal article

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p-type surface doping of diamond: A first-principles study

JP Goss, B Hourahine, R Jones, MI Heggie and PR Briddon

Journal of Physics Condensed Matter, Vol.13(40), pp.8973-8978

08/10/2001

DOI: https://doi.org/10.1088/0953-8984/13/40/313

Abstract

Surface p-type conduction in diamond has been linked to an aqueous layer on a hydrogenated surface. We have used local density function theory to examine the electronic properties of molecular adsorbates on diamond surfaces. We find that a wide range of adsorbates are able to transfer an electron from the valence band into the molecule, facilitating hole conduction.

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Title: p-type surface doping of diamond: A first-principles study
Creators: JP Goss
B Hourahine
R Jones
MI Heggie
PR Briddon
Publication Details: Journal of Physics Condensed Matter, Vol.13(40), pp.8973-8978
Date published: 08/10/2001
Date submitted: 17/05/2017
Identifiers: 99511669002346
Academic Unit: University of Surrey
Resource Type: Journal article

p-type surface doping of diamond: A first-principles study

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