Due to the increasing miniaturization, lightweight, wearable, and portable electronic devices, there is an increasing need to reduce power consumption through the lower operating voltages of thin-film transistors (TFTs). In this study, we proposed a “water-in-bisalt” (WiBS) and an ultraviolet (UV)-curable polymer composite material, which is an aqueous electrolyte with a high capacitance, and realized a dielectric material for low power consumption and a stable voltage range of TFTs that can be handled in the ambient condition. We fabricated a free-standing WiBS/polymer dielectric film with a high capacitance value of 6.72 uF/cm2 at 0.5 Hz and high electrochemical stability by embedding a WiBS electrolyte into the UV crosslinked polymer network by photocuring. The devices of InOx TFTs using WiBS/polymer dielectric films show excellent electrical characteristics: an on/off current ratio of over 103, a subthreshold swing of 110 mV/dec at a drain voltage of 0.1 V, and a linear field-effect mobility of 30.7 cm2/Vs at a drain voltage of 0.1 V and a gate voltage of 1 V.
Solution-processed amorphous zirconium oxide (ZrO2) dielectrics were formed via a non-hydrolytic sol–gel route at low-temperature. The ZrO2 films exhibited a high dielectric constant and high mobility p-type pentacene TFTs were fabricated using them.
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