Performance and reliability improvement of all-solution processed indium zinc oxide thin-film transistor by UV irradiation treatment

Developing a low-temperature fabrication strategy for amorphous oxide semiconductors, such as amorphous indium zinc oxide (a-IZO) channel layers, for use in flexible oxide-based thin-film transistors (TFTs) is essential. In this work, high-performance and highly stable all-solution processed a-IZO TFTs were achieved by varying the duration of a photo-assisted combination treatment (UV combination treatment), which combines UV irradiation with a low heating temperature (115 & DEG;C) in an all-solution processed approach. From the experimental results, UV irradiation can activate the IZO source, drain, and gate electrodes which induces TFT switching. X-ray photoelectron spectroscopy analysis revealed oxygen vacancy (V (o)) generation after the UV combination treatment which increased the carrier concentration and improved the conductivity of IZO. All-solution processed a-IZO TFTs with high performance and stability, high mobility (& mu;) up to 17.45 cm(2) V-1 s(-1), threshold voltage (V-th) = -1.2 V, and subthreshold swing (SS) = 0.64 V dec(-1), were obtained at a low temperature of 115 & DEG;C for 90 min treatment time. The stability behavior of self-aligned top-gate, top-contact a-IZO TFT fabricated by UV combination treatment was investigated under positive bias stress (PBS) and negative bias stress (NBS) with the smallest & UDelta;V (th) of 2.4 V and 0.5 V for PBS and NBS, respectively. Our work shows that better stability indicated by the smaller & UDelta;V (th) is achieved due to reduction of interface trap density and moisture-related impurities, in particular on the activated electrode area. As a result, it can be inferred that UV combination treatment is a simple and promising method to enhance the electrical and stability performance of a-IZO TFTs even with the low-temperature process, which is useful for flexible devices.

Automated summary

Developing a low-temperature fabrication strategy for amorphous oxide semiconductors, such as amorphous indium zinc oxide (a-IZO) channel layers, for use in flexible oxide-based thin-film transistors (TFTs) is essential. High-performance and highly stable all-solution processed a-IZO TFTs were achieved by varying the duration of a photo-assisted combination treatment. UV irradiation can activate the IZO electrodes and induce TFT switching.