A low Schottky barrier height and transport mechanism in gold–graphene–silicon (001) heterojunctions

The interface resistance at metal/semiconductor junctions has been a key issue for decades. The control of this resistance is dependent on the possibility to tune the Schottky barrier height. However, Fermi level pinning in these systems forbids a total control over interface resistance. The introdu...

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Autores principales: Courtin, Jules, Le Gall, Sylvain, Chrétien, Pascal, Moréac, Alain, Delhaye, Gabriel, Lépine, Bruno, Tricot, Sylvain, Turban, Pascal, Schieffer, Philippe, Le Breton, Jean-Christophe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: RSC 2019
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9418477/
https://www.ncbi.nlm.nih.gov/pubmed/36133562
http://dx.doi.org/10.1039/c9na00393b
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author Courtin, Jules
Le Gall, Sylvain
Chrétien, Pascal
Moréac, Alain
Delhaye, Gabriel
Lépine, Bruno
Tricot, Sylvain
Turban, Pascal
Schieffer, Philippe
Le Breton, Jean-Christophe
author_facet Courtin, Jules
Le Gall, Sylvain
Chrétien, Pascal
Moréac, Alain
Delhaye, Gabriel
Lépine, Bruno
Tricot, Sylvain
Turban, Pascal
Schieffer, Philippe
Le Breton, Jean-Christophe
author_sort Courtin, Jules
collection PubMed
description The interface resistance at metal/semiconductor junctions has been a key issue for decades. The control of this resistance is dependent on the possibility to tune the Schottky barrier height. However, Fermi level pinning in these systems forbids a total control over interface resistance. The introduction of 2D crystals between semiconductor surfaces and metals may be an interesting route towards this goal. In this work, we study the influence of the introduction of a graphene monolayer between a metal and silicon on the Schottky barrier height. We used X-ray photoemission spectroscopy to rule out the presence of oxides at the interface, the absence of pinning of the Fermi level and the strong reduction of the Schottky barrier height. We then performed a multiscale transport analysis to determine the transport mechanism. The consistency in the measured barrier height at different scales confirms the good quality of our junctions and the role of graphene in the drastic reduction of the barrier height.
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spelling pubmed-94184772022-09-20 A low Schottky barrier height and transport mechanism in gold–graphene–silicon (001) heterojunctions Courtin, Jules Le Gall, Sylvain Chrétien, Pascal Moréac, Alain Delhaye, Gabriel Lépine, Bruno Tricot, Sylvain Turban, Pascal Schieffer, Philippe Le Breton, Jean-Christophe Nanoscale Adv Chemistry The interface resistance at metal/semiconductor junctions has been a key issue for decades. The control of this resistance is dependent on the possibility to tune the Schottky barrier height. However, Fermi level pinning in these systems forbids a total control over interface resistance. The introduction of 2D crystals between semiconductor surfaces and metals may be an interesting route towards this goal. In this work, we study the influence of the introduction of a graphene monolayer between a metal and silicon on the Schottky barrier height. We used X-ray photoemission spectroscopy to rule out the presence of oxides at the interface, the absence of pinning of the Fermi level and the strong reduction of the Schottky barrier height. We then performed a multiscale transport analysis to determine the transport mechanism. The consistency in the measured barrier height at different scales confirms the good quality of our junctions and the role of graphene in the drastic reduction of the barrier height. RSC 2019-07-27 /pmc/articles/PMC9418477/ /pubmed/36133562 http://dx.doi.org/10.1039/c9na00393b Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Courtin, Jules
Le Gall, Sylvain
Chrétien, Pascal
Moréac, Alain
Delhaye, Gabriel
Lépine, Bruno
Tricot, Sylvain
Turban, Pascal
Schieffer, Philippe
Le Breton, Jean-Christophe
A low Schottky barrier height and transport mechanism in gold–graphene–silicon (001) heterojunctions
title A low Schottky barrier height and transport mechanism in gold–graphene–silicon (001) heterojunctions
title_full A low Schottky barrier height and transport mechanism in gold–graphene–silicon (001) heterojunctions
title_fullStr A low Schottky barrier height and transport mechanism in gold–graphene–silicon (001) heterojunctions
title_full_unstemmed A low Schottky barrier height and transport mechanism in gold–graphene–silicon (001) heterojunctions
title_short A low Schottky barrier height and transport mechanism in gold–graphene–silicon (001) heterojunctions
title_sort low schottky barrier height and transport mechanism in gold–graphene–silicon (001) heterojunctions
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9418477/
https://www.ncbi.nlm.nih.gov/pubmed/36133562
http://dx.doi.org/10.1039/c9na00393b
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