| 초록 |
Herein, we report the successful fabrication of low-temperature metal-oxide thin films, particularly focusing on sol-gel oxide dielectrics by using deep UV irradiation while a general UV-photoactivation mechanism on the high-quality sol-gel oxide film formation was investigated by various spectroscopic and surface analysis methods. Additionally, we also demonstrate a novel large-area printing and self-patterning methods for all-solution sol-gel metal oxide thin film transistors and in vitro bio-electronics interfaces. Finally, we briefly introduce solution-processed metal oxide nanoforest catalyst for efficient thermochemical hydrogen generation with low-temperature DUV-assisted vacancy regeneration. |
