The Schottky barrier transistor in emerging electronic devices

Mike Schwarz; Tom D. Vethaak; Vincent Derycke; Anaïs Francheteau; Benjamin Iniguez; Satender Kataria; Alexander Kloes; Francois Lefloch; Max Lemme; John P. Snyder; Walter M. Weber; Laurie E. Calvet

doi:10.1088/1361-6528/acd05f

The Schottky barrier transistor in emerging electronic devices

Mike Schwarz
, Tom D. Vethaak
, Vincent Derycke
, Anaïs Francheteau
, Benjamin Iniguez
, Satender Kataria
, Alexander Kloes
, Francois Lefloch
, Max Lemme
, John P. Snyder
, Walter M. Weber
, Laurie E. Calvet

Technische Hochschule Mittelhessen
Chalmers University of Technology
Université Paris-Saclay
LTHE (UMR 5564 CNRS/IRD/Université de Grenoble)
Universitat Rovira i Virgili
RWTH Aachen University
LLC
Vienna University of Technology

Résultats de recherche: Contribution à un journal › Article de révision › Revue par des pairs

Résumé

This paper explores how the Schottky barrier (SB) transistor is used in a variety of applications and material systems. A discussion of SB formation, current transport processes, and an overview of modeling are first considered. Three discussions follow, which detail the role of SB transistors in high performance, ubiquitous and cryogenic electronics. For high performance computing, the SB typically needs to be minimized to achieve optimal performance and we explore the methods adopted in carbon nanotube technology and two-dimensional electronics. On the contrary for ubiquitous electronics, the SB can be used advantageously in source-gated transistors and reconfigurable field-effect transistors (FETs) for sensors, neuromorphic hardware and security applications. Similarly, judicious use of an SB can be an asset for applications involving Josephson junction FETs.

langue originale	Anglais
Numéro d'article	352002
journal	Nanotechnology
Volume	34
Numéro de publication	35
Les DOIs	https://doi.org/10.1088/1361-6528/acd05f
état	Publié - 27 août 2023

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title = "The Schottky barrier transistor in emerging electronic devices",

abstract = "This paper explores how the Schottky barrier (SB) transistor is used in a variety of applications and material systems. A discussion of SB formation, current transport processes, and an overview of modeling are first considered. Three discussions follow, which detail the role of SB transistors in high performance, ubiquitous and cryogenic electronics. For high performance computing, the SB typically needs to be minimized to achieve optimal performance and we explore the methods adopted in carbon nanotube technology and two-dimensional electronics. On the contrary for ubiquitous electronics, the SB can be used advantageously in source-gated transistors and reconfigurable field-effect transistors (FETs) for sensors, neuromorphic hardware and security applications. Similarly, judicious use of an SB can be an asset for applications involving Josephson junction FETs.",

keywords = "1D materials, 2D materials, Josephson junctions, Schottky barriers, field effect transistors, source-gated transistors, thin film transistors",

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day = "27",

doi = "10.1088/1361-6528/acd05f",

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AU - Schwarz, Mike

AU - Vethaak, Tom D.

AU - Derycke, Vincent

AU - Francheteau, Anaïs

AU - Iniguez, Benjamin

AU - Kataria, Satender

AU - Kloes, Alexander

AU - Lefloch, Francois

AU - Lemme, Max

AU - Snyder, John P.

AU - Weber, Walter M.

AU - Calvet, Laurie E.

PY - 2023/8/27

Y1 - 2023/8/27

N2 - This paper explores how the Schottky barrier (SB) transistor is used in a variety of applications and material systems. A discussion of SB formation, current transport processes, and an overview of modeling are first considered. Three discussions follow, which detail the role of SB transistors in high performance, ubiquitous and cryogenic electronics. For high performance computing, the SB typically needs to be minimized to achieve optimal performance and we explore the methods adopted in carbon nanotube technology and two-dimensional electronics. On the contrary for ubiquitous electronics, the SB can be used advantageously in source-gated transistors and reconfigurable field-effect transistors (FETs) for sensors, neuromorphic hardware and security applications. Similarly, judicious use of an SB can be an asset for applications involving Josephson junction FETs.

AB - This paper explores how the Schottky barrier (SB) transistor is used in a variety of applications and material systems. A discussion of SB formation, current transport processes, and an overview of modeling are first considered. Three discussions follow, which detail the role of SB transistors in high performance, ubiquitous and cryogenic electronics. For high performance computing, the SB typically needs to be minimized to achieve optimal performance and we explore the methods adopted in carbon nanotube technology and two-dimensional electronics. On the contrary for ubiquitous electronics, the SB can be used advantageously in source-gated transistors and reconfigurable field-effect transistors (FETs) for sensors, neuromorphic hardware and security applications. Similarly, judicious use of an SB can be an asset for applications involving Josephson junction FETs.

KW - 1D materials

KW - 2D materials

KW - Josephson junctions

KW - Schottky barriers

KW - field effect transistors

KW - source-gated transistors

KW - thin film transistors

UR - https://www.scopus.com/pages/publications/85163764271

U2 - 10.1088/1361-6528/acd05f

DO - 10.1088/1361-6528/acd05f

M3 - Review article

C2 - 37100049

AN - SCOPUS:85163764271

SN - 0957-4484

VL - 34

JO - Nanotechnology

JF - Nanotechnology

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ER -

The Schottky barrier transistor in emerging electronic devices

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