Bias stability of solution-processed In2O3 thin film transistors

Bias stability of solution-processed In2O3 thin film transistors

We report the effect of bias stress on the drain current and threshold voltage of n-channel thin-film transistors based on solution processed In _2 O _3 layers. Application of a positive gate bias for variable time-periods led to displacements of the transfer curves in the positive gate bias directi...

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Bibliographic Details
Main Authors: Isam Abdullah, J Emyr Macdonald, Yen-Hung Lin, Thomas D Anthopoulos, Nasih Hma Salah, Shaida Anwar Kakil, Fahmi F Muhammadsharif
Format: Article
Language:English
Published: IOP Publishing 2020-01-01
Series:JPhys Materials
Subjects:
solution processed
indium oxide TFTs
bias stress
threshold voltage
Online Access:https://doi.org/10.1088/2515-7639/abc608
Description
Summary:We report the effect of bias stress on the drain current and threshold voltage of n-channel thin-film transistors based on solution processed In _2 O _3 layers. Application of a positive gate bias for variable time-periods led to displacements of the transfer curves in the positive gate bias direction. On switching off the gate bias, the transfer curves returned close to their pre-stress state on a timescale similar to that when the gate bias was switched on. The time dependence of the threshold voltage shift is described well by a stretched-exponential model. The temporal behaviour of the threshold voltage shifts is consistent with charge trapping as the dominant effect, although some defect formation cannot be ruled out.
ISSN:2515-7639

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