Abstract

The exploration of p-type metal-oxide semiconductors (MOS) has garnered growing interest, particularly for their potential applications in next-generation optoelectronic devices, display backplanes, and low-power consumption complementary MOS (CMOS) circuits. Here, we introduced low-temperature solution-processed copper gallium oxide (CuGaO) films for p-channel thin-film transistors (TFTs). Hall Effect measurements confirmed the p-type conduction of CuGaO, revealing a conductivity and mobility of 3.76 ×10−2 S/cm and 7.89 cm2V–1s–1, respectively. The p-channel CuGaO-250 TFT demonstrated a field-effect mobility (μFE) of 1.24 cm2V–1s–1, the lowest subthreshold swing (SS) of 519 mV/dec, and an ON/OFF current ratio (ION/IOFF) of ∼104 at a low operating voltage. The notable improvement in TFT performance can be attributed to the quality of the CuGaO-250 film, a smooth surface morphology, and a reduction of interfacial traps between the semiconductor and the gate insulator. Hence, low-temperature fabrication of the p-channel CuGaO TFT holds promise for implementing metal oxide-based TFT and complementary metal oxide semiconductor (CMOS) circuits in next-generation displays.

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