Issue 4, 2024

Robust large area molecular junctions based on transparent and flexible electrodes

Abstract

Electrografting of an oligophenylene ethynylene monolayer (OPEH) onto a Mylar®-supported PEDOT : PSS and graphene substrate prior to wet-transfer of a graphene top-electrode has been used to create flexible and transparent large-area Mylar–PEDOT : PSS|OPEH|Graphene molecular junctions. The electrical conductance of the Mylar–PEDOT : PSS|OPEH|Graphene structure was determined by conductive probe atomic force microscopy (c-AFM), sampling various regions across the surfaces of multiple devices. All registered I–V curves (sampling size ∼150 tests) give a sigmoidal response, consistent with through molecule conductance and ruling out the presence of direct electrode contacts or short-circuits. The demonstration of the combined use of Mylar-supported PEDOT : PSS and graphene as alternative electrode materials to conventional metal thin film electrodes in large-area molecular junctions opens avenues to enable flexible and transparent molecular (opto)electronic devices.

Graphical abstract: Robust large area molecular junctions based on transparent and flexible electrodes

Supplementary files

Article information

Article type
Paper
Submitted
26 Jun 2023
Accepted
03 Dec 2023
First published
07 Dec 2023

J. Mater. Chem. C, 2024,12, 1325-1333

Robust large area molecular junctions based on transparent and flexible electrodes

A. García-Serrano, P. Cea, H. M. Osorio, F. Pérez-Murano, G. Rius, P. J. Low and S. Martin, J. Mater. Chem. C, 2024, 12, 1325 DOI: 10.1039/D3TC02237D

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