期刊
ACS APPLIED MATERIALS & INTERFACES
卷 11, 期 39, 页码 35969-35976出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.9b11052
关键词
InSe; transistor; mobility; localization; trap states; variable range hopping
资金
- Ministry of Science and Technology of Taiwan [MOST 107-2119-M007-011-MY2, MOST 106-2119-M-007-008-MY3, MOST 106-2628-M-007-003-MY3, MOST 107-2119-M-005-006]
InSe is a high-mobility layered semiconductor with mobility being highly sensitive to any surrounding media that could act as a source of extrinsic scattering. However, little effort has been made to understand electronic transport in thin InSe layers with native surface oxide formed spontaneously upon exposure to an ambient environment. Here, we explore the influence of InOx/InSe interfacial trap states on electronic transport in thin InSe layers. We show that wet oxidation (processed in an ambient environment) causes massive deep lying band-tail states, through which electrons conduct via 2D variable-range hopping with a short localization length of 1-3 nm. In contrast, a high-quality InOx/InSe interface can be formed in dry oxidation (processed in pure oxygen), with a low trap density of 10(12) eV(-1) cm(-2). Metal-insulator transition can be thus observed in the gate sweep of the field-effect transistors (FETs), indicative of band transport predominated by extended states above the mobility edge. A room-temperature band mobility of 10(3) cm(2)/V s is obtained. The profound difference in the transport behavior between the wet and dry InSe FETs suggests that fluctuating Coulomb potential arising from trapped charges at the InOx/InSe interface is the dominant source of disorders in thin InSe channels.
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