Chung Hyeon Ryu scite author profile

In this study, we investigated the effects of intense pulsed light (IPL) on the electrical performance properties of zinc oxynitride (ZnON) thin films and thin-film transistors (TFTs) with different irradiation energies. Using the IPL process on the oxide/oxynitride semiconductors has various advantages, such as an ultrashort process time (∼100 ms) and high electrical performance without any additional thermal processes. As the irradiation energy of IPL increased from 30 to 50 J/cm 2 , the carrier concentration of ZnON thin films decreased from 5.07 × 10 19 to 9.96 × 10 16 cm −3 and the electrical performance of TFTs changed significantly, which is optimized at an energy of 40 J/cm 2 (field effect mobility of 48.4 cm 2 V −1 s −1 ). The properties of TFTs, such as mobility, subthreshold swing, and hysteresis, and the stability of the device under negative bias degraded as the irradiation energy increased. This degradation contributed to the change in nitrogen-related bonding states, such as nonstoichiometric Zn x N y and N−N bonding, rather than that of oxygen-related bonding states and the atomic composition of ZnON thin films. Optimization of the IPL process in our results makes it possible to produce high-performance ZnON TFTs very fast without any additional thermal treatment, which indicates that highly productive TFT fabrication can be achieved via this process.

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Enhancing intense pulsed light sintering characteristic of Cu nanoparticle/microparticle-ink using ultraviolet surface modification on polyimide substrate

Ryu

Kim

2020

Thin Solid Films

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Chung Hyeon Ryu

A Review on Intense Pulsed Light Sintering Technologies for Conductive Electrodes in Printed Electronics

Two-step flash light sintering of copper nanoparticle ink to remove substrate warping

Ultra-High-Speed Intense Pulsed-Light Irradiation Technique for High-Performance Zinc Oxynitride Thin-Film Transistors

Enhancing intense pulsed light sintering characteristic of Cu nanoparticle/microparticle-ink using ultraviolet surface modification on polyimide substrate

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