Wafer-Scale Patterning of Reduced Graphene Oxide Electrodes by Transfer-and-Reverse Stamping for High Performance OFETs

A wafer‐scale patterning method for solution‐processed graphene electrodes, named the transfer‐and‐reverse stamping method, is universally applicable for fabricating source/drain electrodes of n‐ and p‐type organic field‐effect transistors with excellent performance. The patterning method begins wit...

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Published in:Small (Weinheim an der Bergstrasse, Germany) Germany), 2013-08, Vol.9 (16), p.2817-2825
Main Authors: Lee, Joong Suk, Kim, Nam Hee, Kang, Moon Sung, Yu, Hojeong, Lee, Dong Ryoul, Oh, Joon Hak, Chang, Suk Tai, Cho, Jeong Ho
Format: Article
Language:English
Subjects:
flexible inverters
micropatterning
Nanotechnology
R&D
reduced graphene oxide
Research & development
Semiconductors
source-drain electrodes
thin films
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cited_by cdi_FETCH-LOGICAL-c5148-b8a349b067de24bd8df10a3bc0fc3c796cb57c1c53dcdcc7d0f5688ab073f3a43
cites cdi_FETCH-LOGICAL-c5148-b8a349b067de24bd8df10a3bc0fc3c796cb57c1c53dcdcc7d0f5688ab073f3a43
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container_title Small (Weinheim an der Bergstrasse, Germany)
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creator Lee, Joong Suk
Kim, Nam Hee
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Yu, Hojeong
Lee, Dong Ryoul
Oh, Joon Hak
Chang, Suk Tai
Cho, Jeong Ho
description A wafer‐scale patterning method for solution‐processed graphene electrodes, named the transfer‐and‐reverse stamping method, is universally applicable for fabricating source/drain electrodes of n‐ and p‐type organic field‐effect transistors with excellent performance. The patterning method begins with transferring a highly uniform reduced graphene oxide thin film, which is pre‐prepared on a glass substrate, onto hydrophobic silanized (rigid/flexible) substrates. Patterns of the as‐prepared reduced graphene oxide films are then formed by modulating the surface energy of the films and selectively delaminating the films using an oxygen‐plasma‐treated elastomeric stamp with patterns. Reduced graphene oxide patterns with various sizes and shapes can be readily formed onto an entire wafer. Also, they can serve as the source/drain electrodes for benchmark n‐ and p‐type organic field‐effect transistors with enhanced performance, compared to those using conventional metal electrodes. These results demonstrate the general utility of this technique. Furthermore, this simple, inexpensive, and scalable electrode‐patterning‐technique leads to assembling organic complementary circuits onto a flexible substrate successfully. Reproducible and effective wafer‐scale patterning of reduced graphene oxide (rGO) electrodes by transfer‐and‐reverse stamping method is reported. The highly defined rGO micropatterns with various shapes are readily formed on rigid or flexible hydrophobized substrates and serve as the electrodes for high‐performance n‐ and p‐type OFETs and complementary inverters.
doi_str_mv 10.1002/smll.201300538
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source Wiley-Blackwell Read & Publish Collection
subjects flexible inverters
micropatterning
Nanotechnology
R&D
reduced graphene oxide
Research & development
Semiconductors
source-drain electrodes
thin films
title Wafer-Scale Patterning of Reduced Graphene Oxide Electrodes by Transfer-and-Reverse Stamping for High Performance OFETs
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