Experimental Observation and Modeling of the Impact of Traps on Static and Analog/HF Performance of Graphene Transistors

Anibal Pacheco-Sanchez; Nikolaos Mavredakis; Pedro C. Feijoo; Wei Wei; Emiliano Pallecchi; Henri Happy; David Jimenez

doi:10.1109/TED.2020.3029542

Experimental Observation and Modeling of the Impact of Traps on Static and Analog/HF Performance of Graphene Transistors

Anibal Pacheco-Sanchez, Nikolaos Mavredakis, Pedro C. Feijoo, Wei Wei, Emiliano Pallecchi, Henri Happy, David Jimenez

Department of Electronic Engineering

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

16 Citations (Scopus)

Abstract

The trap-induced hysteresis on the performance of a graphene field-effect transistor is experimentally diminished here by applying consecutive gate-to-source voltage pulses of opposing polarity. This measurement scheme is a practical and suitable approach to obtain reproducible device characteristics. Trap-affected and trap-reduced experimental data enable a discussion regarding the impact of traps on static and dynamic device performance. An analytical drain current model calibrated with the experimental data enables the study of the trap effects on the channel potential within the device. High-frequency (HF) figures of merit and the intrinsic gain of the device obtained from both experimental and synthetic data with and without hysteresis show the importance of considering the generally overlooked impact of traps for analog and HF applications.

Original language	English
Pages (from-to)	5790 - 5796
Number of pages	7
Journal	IEEE Transactions on Electron Devices
Volume	67
Issue number	12
DOIs	https://doi.org/10.1109/TED.2020.3029542
Publication status	Published - 1 Dec 2020

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title = "Experimental Observation and Modeling of the Impact of Traps on Static and Analog/HF Performance of Graphene Transistors",

abstract = "The trap-induced hysteresis on the performance of a graphene field-effect transistor is experimentally diminished here by applying consecutive gate-to-source voltage pulses of opposing polarity. This measurement scheme is a practical and suitable approach to obtain reproducible device characteristics. Trap-affected and trap-reduced experimental data enable a discussion regarding the impact of traps on static and dynamic device performance. An analytical drain current model calibrated with the experimental data enables the study of the trap effects on the channel potential within the device. High-frequency (HF) figures of merit and the intrinsic gain of the device obtained from both experimental and synthetic data with and without hysteresis show the importance of considering the generally overlooked impact of traps for analog and HF applications.",

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AU - Pacheco-Sanchez, Anibal

AU - Mavredakis, Nikolaos

AU - Feijoo, Pedro C.

AU - Wei, Wei

AU - Pallecchi, Emiliano

AU - Happy, Henri

AU - Jimenez, David

PY - 2020/12/1

Y1 - 2020/12/1

N2 - The trap-induced hysteresis on the performance of a graphene field-effect transistor is experimentally diminished here by applying consecutive gate-to-source voltage pulses of opposing polarity. This measurement scheme is a practical and suitable approach to obtain reproducible device characteristics. Trap-affected and trap-reduced experimental data enable a discussion regarding the impact of traps on static and dynamic device performance. An analytical drain current model calibrated with the experimental data enables the study of the trap effects on the channel potential within the device. High-frequency (HF) figures of merit and the intrinsic gain of the device obtained from both experimental and synthetic data with and without hysteresis show the importance of considering the generally overlooked impact of traps for analog and HF applications.

AB - The trap-induced hysteresis on the performance of a graphene field-effect transistor is experimentally diminished here by applying consecutive gate-to-source voltage pulses of opposing polarity. This measurement scheme is a practical and suitable approach to obtain reproducible device characteristics. Trap-affected and trap-reduced experimental data enable a discussion regarding the impact of traps on static and dynamic device performance. An analytical drain current model calibrated with the experimental data enables the study of the trap effects on the channel potential within the device. High-frequency (HF) figures of merit and the intrinsic gain of the device obtained from both experimental and synthetic data with and without hysteresis show the importance of considering the generally overlooked impact of traps for analog and HF applications.

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DO - 10.1109/TED.2020.3029542

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EP - 5796

JO - IEEE Transactions on Electron Devices

JF - IEEE Transactions on Electron Devices

IS - 12

ER -

Experimental Observation and Modeling of the Impact of Traps on Static and Analog/HF Performance of Graphene Transistors

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