Reduced graphene oxide-silicon interface involving direct Si-O bonding as a conductive and mechanical stable ohmic contact

Rahpeima, Soraya; Dief, Essam; Peiris, Chandramalika; Ferrie, Stuart; Duan, A.; Ciampi, Simone; Raston, C.L.; Darwish, Nadim

doi:10.1039/d0cc02310h

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Access Status

Open access

Authors

Rahpeima, Soraya

Dief, Essam

Peiris, Chandramalika

Ferrie, Stuart

Duan, A.

Ciampi, Simone

Raston, C.L.

Darwish, Nadim

Date

2020

Type

Journal Article

Metadata

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Citation

Rahpeima, S. and Dief, E.M. and Peiris, C.R. and Ferrie, S. and Duan, A. and Ciampi, S. and Raston, C.L. et al. 2020. Reduced graphene oxide-silicon interface involving direct Si-O bonding as a conductive and mechanical stable ohmic contact. Chemical Communications. 56 (46): pp. 6209-6212.

Source Title

Chemical Communications

DOI

10.1039/d0cc02310h

ISSN

1359-7345

Faculty

Faculty of Science and Engineering

School

School of Molecular and Life Sciences (MLS)

Abstract

Metal-semiconductor junctions are essential contacts for semiconductor devices, but high contact junction resistance is a limiting operational factor. Here, we establish an ohmic contact of low resistance of <4 × 10−6Ω cm2between platinum and n-type Si (111)-H surfaces. This involved Si-O covalent bonding a monolayer of graphene oxide (GO) to the Si surface followed by electrochemical reduction to form reduced graphene oxide (rGO). Current-voltage plots demonstrate that the GO/rGO transformation is associated with a change from a rectifying to an ohmic contact. The process is a viable method for constructing semiconductor-rGO interfaces and demonstrates that GO/rGO monolayers can be used as active components in tuning the contact resistance of metal-semiconductor junctions.