Journal
IEEE ELECTRON DEVICE LETTERS
Volume 44, Issue 5, Pages 773-776Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LED.2023.3254609
Keywords
Flexible electronics; InGaZnO; thin-film transistors; semiconductor geometry; AC performance
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The AC performance of flexible TFTs is affected by the parasitics caused by tolerances needed for the fabrication on free-standing plastic foils. The width of the semiconductor island can either be wider or narrower than the source/drain contacts. It is shown that flexible InGaZnO TFTs with wider semiconductor islands exhibit better frequency performance due to current spreading and the frequency dependency of the gate capacitance.
The AC performance of flexible TFTs sufferers from parasitics caused by tolerances needed for the fabrication on free-standing plastic foils. In this context, the semiconductor island can either be wider or narrower than the source/drain contacts. Traditionally, the second configuration is expected to result in faster TFTs as the total gate overlap area is smaller. However, here it is shown that 2.5 mu m long flexible InGaZnO TFTs with wide semiconductor islands exhibit better frequency performance such as a f(T) of 26.1 MHz (compared to f(T) of 13.8 MHz of TFTs with narrow semiconductor islands). This effect is confirmed for flat and bend TFTs and is caused by current spreading in the semiconductor islands, as well as the frequency dependency of the gate capacitance.
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