2021年第82回応用物理学会秋季学術講演会

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一般セッション(口頭講演)

12 有機分子・バイオエレクトロニクス » 12.7 医用工学・バイオチップ

[13p-N322-1~16] 12.7 医用工学・バイオチップ

2021年9月13日(月) 13:30 〜 18:00 N322 (口頭)

加治佐 平(東洋大)、當麻 浩司(医科歯科大)、小野 尭生(阪大)

15:45 〜 16:00

[13p-N322-9] Electrical characteristics of solution-gated ultrathin channel ITO-based transistor fabricated by one-step procedure and biomolecular recognition based on its chemical modification

〇(M1)Xianqi Dong1、Akiko Saito1、Toshiya Sakata1 (1.The Univ. of Tokyo)

キーワード:solution-gated field-effect transistor, biosensor

We previously proposed a one-step procedure for fabricating a solution-gated ultrathin channel indium tin oxide (ITO)-based field-effect transistor (FET) biosensor. Owing to a modified metal shadow mask, a thin ITO channel and thick ITO source/drain electrodes were simultaneously fabricated during the one-step sputtering. The thickness of ITO films was critical for them to be semiconductive, depending on the maximum depletion width, similarly to 2D materials. The ultrathin ITO channel worked as an ion-sensitive membrane as well, owing to the intrinsic oxidated surface directly contacting with an electrolyte solution. The solution-gated 20-nm-thick channel ITO-based FET, with a steep subthreshold slope (SS) of 55 mV per decade (pH 7.41) attributable to the electric double-layer capacitance at the electrolyte solution/channel interface and the absence of interfacial traps among electrodes formed in one step, demonstrated an ideal pH responsivity. Therefore, the chemical modification of the ITO channel surface is expected to contribute to biomolecular recognition with ultrahigh sensitivity owing to the remarkably steep SS.