Inkjet Printed Circuits with 2D Semiconductor Inks for High-Performance Electronics

Tian Carey; Adrees Arbab; Luca Anzi; Helen Bristow; Fei Hui; Sivasambu Bohm; Gwenhivir Wyatt-Moon; Andrew Flewitt; Andrew Wadsworth; Nicola Gasparini; Jong M. Kim; Mario Lanza; Iain McCulloch; Roman Sordan; Felice Torrisi

doi:10.1002/aelm.202100112

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Inkjet Printed Circuits with 2D Semiconductor Inks for High-Performance Electronics

Journal article

Peer reviewed

Inkjet Printed Circuits with 2D Semiconductor Inks for High-Performance Electronics

Tian Carey, Adrees Arbab, Luca Anzi, Helen Bristow, Fei Hui, Sivasambu Bohm, Gwenhivir Wyatt-Moon, Andrew Flewitt, Andrew Wadsworth, Nicola Gasparini, …

Advanced electronic materials, Vol.7(7), pp.2100112-n/a

01/07/2021

DOI: https://doi.org/10.1002/aelm.202100112

Abstract

Materials Science

Materials Science, Multidisciplinary

Nanoscience & Nanotechnology

Physical Sciences

Physics

Physics, Applied

Science & Technology

Science & Technology - Other Topics

Technology

Air-stable semiconducting inks suitable for complementary logic are key to create low-power printed integrated circuits (ICs). High-performance printable electronic inks with 2D materials have the potential to enable the next generation of high performance low-cost printed digital electronics. Here, the authors demonstrate air-stable, low voltage (<5 V) operation of inkjet-printed n-type molybdenum disulfide (MoS2), and p-type indacenodithiophene-co-benzothiadiazole (IDT-BT) field-effect transistors (FETs), estimating an average switching time of tau(MoS2) approximate to 4.1 mu s for the MoS2 FETs. They achieve this by engineering high-quality MoS2 and air-stable IDT-BT inks suitable for inkjet-printing complementary pairs of n-type MoS2 and p-type IDT-BT FETs. They then integrate MoS2 and IDT-BT FETs to realize inkjet-printed complementary logic inverters with a voltage gain |A(v)| approximate to 4 when in resistive load configuration and |A(v)| approximate to 1.4 in complementary configuration. These results represent a key enabling step towards ubiquitous long-term stable, low-cost printed digital ICs.

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Title: Inkjet Printed Circuits with 2D Semiconductor Inks for High-Performance Electronics
Creators - without role: Tian Carey - University of Cambridge
Adrees Arbab - University of Cambridge
Luca Anzi - Politecnico di Milano
Helen Bristow - Imperial College London
Fei Hui - Technion – Israel Institute of Technology
Sivasambu Bohm - University of Cambridge
Gwenhivir Wyatt-Moon - University of Cambridge
Andrew Flewitt - University of Cambridge
Andrew Wadsworth - Imperial College London
Nicola Gasparini - Imperial College London
Jong M. Kim - University of Cambridge
Mario Lanza - King Abdullah University of Science and Technology
Iain McCulloch - King Abdullah University of Science and Technology
Roman Sordan - Politecnico di Milano
Felice Torrisi - University of Cambridge
Publication Details: Advanced electronic materials, Vol.7(7), pp.2100112-n/a
Publisher: Wiley
Number of pages: 10
Grant note: 61874075 / National Natural Science Foundation of China; National Natural Science Foundation of China (NSFC) Technion-Guangdong Fellowship EP/P02534X/2; EP/R511547/1; EP/T005106/1 / EPSRC; UK Research & Innovation (UKRI); Engineering & Physical Sciences Research Council (EPSRC) 881603 / EU H2020 Graphene Flagship Core 3 Grant Imperial College Collaboration Kick-Starter grant Trinity College, Cambridge 2018YFE0100800; 2019YFE0124200 / Ministry of Science and Technology of China; Ministry of Science and Technology, China
Identifiers: 9941037208331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article