Performance Investigation of an n-Type Tin-Oxide Thin Film Transistor by Channel Plasma Processing

Abstract: In this paper, we investigated the performance of an n-type tin-oxide (SnO x) thin film transistor (TFT) by experiments and simulation. The fabricated SnO x TFT device by oxygen plasma treatment on the channel exhibited n-type conduction with an on/off current ratio of 4.4x10 4 , a high field-effect mobility of 18.5 cm 2 /V.s and a threshold swing of 405 mV/decade, which could be attributed to the excess reacted oxygen incorporated to the channel to form the oxygen-rich n-type SnO x. Furthermore, a TCAD simula… Show more

“…Hence, it restricts hole conduction. Although, there are various reports on the successful implementation DOS model of n-type a-IGZO TFTs [22], SnO2 base TFTs are rarely modeled [38]. Saji et al, successfully demonstrated the fabrication of SnO2 TFT [35] using RF sputtering.…”

A Comprehensive Density-of-States Model for Oxide Semiconductor Thin Film Transistors

“…Hence, it restricts hole conduction. Although, there are various reports on the successful implementation DOS model of n-type a-IGZO TFTs [22], SnO2 base TFTs are rarely modeled [38]. Saji et al, successfully demonstrated the fabrication of SnO2 TFT [35] using RF sputtering.…”

A Comprehensive Density-of-States Model for Oxide Semiconductor Thin Film Transistors

A comprehensive density-of-states model for oxide semiconductor thin film transistors

Effect of plasma oxidation on tin-oxide active layer for thin-film transistor applications