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Ultra-high-resolution printing of flexible organic thin-film transistors
Xuying Liu,Masayuki Kanehara,Chuan Liu,Takeo Minari 한국정보디스플레이학회 2017 Journal of information display Vol.18 No.2
Fully printed electronics on plastic have attracted considerable interest owing to their high compatibility and ease of integration. Here, an ultra-high-resolution printing technique based on parallel vacuum ultraviolet patterning that can produce high-contrast wettability regions on flexible substrates was developed. This technique was used to selectively deposit a functional ink with a 1μm feature size, thereby allowing the large-scale fabrication of organic thin-film transistors with channels as short as 1μm under an ambient atmosphere. Moreover, in short-channel devices, hole injection barriers can be tuned by printing the optimum gate overlaps associated with selectively doping semiconductor/electrode interfaces, resulting in a marked reduction in contact resistance from 20 to 1.5, and an elevation of the charge carrier mobility to a record high of 0.3 cm2 V−1 s−1 in a 1-μm-channel device. The results indicate that the developed technique is promising for the fabrication of large-area, high-resolution, low-cost electronics.
Liu, Chuan,Liu, Xuying,Minari, Takeo,Kanehara, Masayuki,Noh, Yong-Young The Korean Infomation Display Society 2018 Journal of information display Vol.19 No.2
Recent studies on organic thin-film transistors (OTFTs) have reported high mobility values, but many of them showed non-ideal current-voltage characteristics that could lead to the overestimation of the mobility values. In this study, the non-ideal transistor behavior was briefly investigated by considering the effect of charge injection, and a method of overcoming the effect was developed. Correspondingly, various charge injection layers were developed, and their effects on the modification of metal contacts, including work function tuning and interfacial doping, were studied. The materials that had been coated formed a good metal-semiconductor interface through fine manipulation in the wetting and dewetting of the selected liquid. With such electrodes, the OTFTs were fabricated at room temperature and exhibited almost ideal transistor behavior in terms of the current-voltage characteristics, featuring high (over $10cm^2/Vs$) field-effect mobility.
Organic thin-film transistors with over 10 cm2/Vs mobility through low-temperature solution coating
Chuan Liu,Xuying Liu,Takeo Minari,Masayuki Kanehara,노용영 한국정보디스플레이학회 2018 Journal of information display Vol.19 No.2
Recent studies on organic thin-film transistors (OTFTs) have reported high mobility values, but many of them showed non-ideal current–voltage characteristics that could lead to the overestimation of the mobility values. In this study, the non-ideal transistor behavior was briefly investigated by considering the effect of charge injection, and a method of overcoming the effect was developed. Correspondingly, various charge injection layers were developed, and their effects on the modification of metal contacts, including work function tuning and interfacial doping, were studied. The materials that had been coated formed a good metal-semiconductor interface through fine manipulation in the wetting and dewetting of the selected liquid. With such electrodes, the OTFTs were fabricated at room temperature and exhibited almost ideal transistor behavior in terms of the current–voltage characteristics, featuring high (over 10 cm2/Vs) field-effect mobility.
The Effects of MRI on Mouse Embryos During Fetal Stage
Nakamura, Takashi,Ryu, Myung-Sun,Sakazaki, Takahiko,Itokawa, Yuka,Maenaka, Toshihiro,Masubuchi, Takashi,Sekimoto, Hiroyuki,Kanehara, Masayuki,Kang, Young-Nam,Gu, Yeun-Hwa The Korean Association for Radiation Protection 2006 방사선방어학회지 Vol.31 No.2
The effects of Magnetic resonance imaging (MRI) on mouse embryos at the early stage of organogenesis were investigated. Pregnant ICR mice were exposed on day 8 of gestation to MRI at 0.5 T for 0.5 hour to 3 hours. The mortality rates of embryos or fetuses, the incidence of external malformations, fetal body weight and sex ratio were observed at day 18 of gestation. A significant increase in embryonic mortality was observed after exposure to either 0.5 T MRI for 0.5 hour or 2 hours. However, the exposure to MRI for 1 hour or 3 hours did not induce any significant increase in embryonic mortality when compared with control. External malformations such as exencephaly, cleft palate and anomalies of tail were observed in all experimental groups exposed to each MRI. A statistically significant increase of external malformations was observed in all groups treated with 0.5 T MRI for 0.5 hour and 3 hours. The incidence of external malformations in the mice group exposed to 0.5 T MRI for 0.5-hour was found to be higher than those of mice group exposed to 0.5 T MRI for 2 hours. The effects of MRI on the external malformations might not to be dose-dependent. There was no statistically significant difference in fetal body weight and sex ratio among each MRI exposure groups.