Tin Disulfide—An Emerging Layered Metal Dichalcogenide Semiconductor: Materials Properties and Device Characteristics

材料科学 拉曼光谱 光电子学 半导体 单层 带隙 二硫化钼 拉曼散射 纳米技术 光学 物理 冶金
作者
Yuan Huang,Eli Sutter,Jerzy T. Sadowski,Mircea Cotlet,Oliver L. A. Monti,David A. Racke,Mahesh R. Neupane,Darshana Wickramaratne,Roger K. Lake,B. A. Parkinson,Peter Sutter
出处
期刊:ACS Nano [American Chemical Society]
卷期号:8 (10): 10743-10755 被引量:539
标识
DOI:10.1021/nn504481r
摘要

Layered metal dichalcogenides have attracted significant interest as a family of single- and few-layer materials that show new physics and are of interest for device applications. Here, we report a comprehensive characterization of the properties of tin disulfide (SnS2), an emerging semiconducting metal dichalcogenide, down to the monolayer limit. Using flakes exfoliated from layered bulk crystals, we establish the characteristics of single- and few-layer SnS2 in optical and atomic force microscopy, Raman spectroscopy and transmission electron microscopy. Band structure measurements in conjunction with ab initio calculations and photoluminescence spectroscopy show that SnS2 is an indirect bandgap semiconductor over the entire thickness range from bulk to single-layer. Field effect transport in SnS2 supported by SiO2/Si suggests predominant scattering by centers at the support interface. Ultrathin transistors show on-off current ratios >10(6), as well as carrier mobilities up to 230 cm(2)/(V s), minimal hysteresis, and near-ideal subthreshold swing for devices screened by a high-k (deionized water) top gate. SnS2 transistors are efficient photodetectors but, similar to other metal dichalcogenides, show a relatively slow response to pulsed irradiation, likely due to adsorbate-induced long-lived extrinsic trap states.
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