Shift of switching threshold in low-dimensional semiconductor-based complementary inverters via inkjet printing

Seoyeon Jung; Jihyun Lee; Juhee Park; Sangyeon Pak; Jungmoon Lim; Seungnam Cha; Bongjun Kim

doi:10.1088/1361-6528/ac67ab

Shift of switching threshold in low-dimensional semiconductor-based complementary inverters via inkjet printing

Seoyeon Jung
, Jihyun Lee
, Juhee Park
, Sangyeon Pak
, Jungmoon Lim
, Seungnam Cha
, Bongjun Kim

Department of Physics

Sookmyung Women's University
Hongik University
Sungkyunkwan University

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

MoS2 crystals grown by chemical vapor deposition are suited for realization of practical 2D semiconductor-based electronics. In order to construct complementary circuits with n-type MoS2, another p-type semiconductor, whose performance can be adjusted corresponding to that of MoS2 in the limited chip area, has to be sought. Herein, we present a method for tuning switching threshold voltages of complementary inverters simply via inkjet printing without changing their channel dimensions. Random networks of inkjet printed single-walled carbon nanotubes are formed as p-channels beside MoS2, and their density and thickness are controlled by varying the number of printed layers. As a result, p-type transistor characteristics as well as inverter characteristics are facilely tuned only by varying the number of printed layers.

Original language	English
Article number	305203
Journal	Nanotechnology
Volume	33
Issue number	30
DOIs	https://doi.org/10.1088/1361-6528/ac67ab
State	Published - 23 Jul 2022

Keywords

carbon nanotube (CNT)
molybdenum disulfide (MoS)
printed electronics
tunable switching threshold

Access to Document

10.1088/1361-6528/ac67ab

Cite this

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title = "Shift of switching threshold in low-dimensional semiconductor-based complementary inverters via inkjet printing",

abstract = "MoS2 crystals grown by chemical vapor deposition are suited for realization of practical 2D semiconductor-based electronics. In order to construct complementary circuits with n-type MoS2, another p-type semiconductor, whose performance can be adjusted corresponding to that of MoS2 in the limited chip area, has to be sought. Herein, we present a method for tuning switching threshold voltages of complementary inverters simply via inkjet printing without changing their channel dimensions. Random networks of inkjet printed single-walled carbon nanotubes are formed as p-channels beside MoS2, and their density and thickness are controlled by varying the number of printed layers. As a result, p-type transistor characteristics as well as inverter characteristics are facilely tuned only by varying the number of printed layers.",

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AU - Jung, Seoyeon

AU - Lee, Jihyun

AU - Park, Juhee

AU - Pak, Sangyeon

AU - Lim, Jungmoon

AU - Cha, Seungnam

AU - Kim, Bongjun

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AB - MoS2 crystals grown by chemical vapor deposition are suited for realization of practical 2D semiconductor-based electronics. In order to construct complementary circuits with n-type MoS2, another p-type semiconductor, whose performance can be adjusted corresponding to that of MoS2 in the limited chip area, has to be sought. Herein, we present a method for tuning switching threshold voltages of complementary inverters simply via inkjet printing without changing their channel dimensions. Random networks of inkjet printed single-walled carbon nanotubes are formed as p-channels beside MoS2, and their density and thickness are controlled by varying the number of printed layers. As a result, p-type transistor characteristics as well as inverter characteristics are facilely tuned only by varying the number of printed layers.

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KW - tunable switching threshold

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Shift of switching threshold in low-dimensional semiconductor-based complementary inverters via inkjet printing

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