Optimization of Cross-Linked Polyvinyl Alcohol Dielectrics for High-Performance Ultraflexible Organic Field-Effect Transistors
IEEE Transactions on Electron Devices(2022)
摘要
Cross-linking polymer gate dielectric is an efficient strategy to improve its intrinsic properties for high-performance flexible organic field-effect transistors (OFETs). However, the detail optimization process of the polymer films with the various cross-linking degrees is often ignored, which can bring a significant effect on the electrical performance of OFETs. In this work, the cross-linked poly (vinylalcohol) (CPVA) is introduced as the gate dielectrics for the high-performance ultraflexible OFETs. The dielectric property and the surface property of CPVA thin films with various cross-linking degrees are investigated in detail. The OFETs with a high average mobility of 7.3 cm
$^{2}\cdot V^{-1}\cdot s^{-1}$
, a current ON/ OFF ratio of over 10
7
, and a lower density of trap states of
$8.7\times10$
11
eV
$^{-1}\cdot cm^{-2}$
are achieved successfully. Moreover, the ultraflexible OFET presents a high mobility of over 5.1 cm
$^{2}\cdot V^{-1}\cdot s^{-1}$
even bending around a copper wire with a small radius of
$400 ~\mu \text{m}$
, due to the ultrathin thickness of the device. These results demonstrate that the CPVA thin film is a promising candidate dielectric material for flexible organic transistors, presenting huge potential for the next-generation flexible electronic devices.
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关键词
Flexible electronics,high performance,organic semiconductors,polymer dielectric,transistors
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