材料科学
异质结
等离子体子
光电子学
飞秒
半导体
超短脉冲
激子
光探测
光致发光
带隙
光谱学
激光器
光电探测器
光学
物理
量子力学
作者
Ying Yu,Ziheng Ji,Shuai Zu,Bowen Du,Yimin Kang,Ziwei Li,Zhang‐Kai Zhou,Kebin Shi,Zheyu Fang
标识
DOI:10.1002/adfm.201601779
摘要
2D transition metal dichalcogenides are becoming attractive materials for novel photoelectric and photovoltaic applications due to their excellent optoelectric properties and accessible optical bandgap in the near‐infrared to visible range. Devices utilizing 2D materials integrated with metal nanostructures have recently emerged as efficient schemes for hot electron‐based photodetection. Metal‐semiconductor heterostructures with low cost, simple procedure, and fast response time are crucial for the practical applications of optoelectric devices. In this paper, template‐based sputtering method is used first to fabricate Au nanoantenna (NA)/MoS 2 heterostructures with low cost, simple preparation, broad spectral response, and fast response time. Through the measurement of femtosecond pump‐probe spectroscopy, it is demonstrated that plasmon‐induced hot electron transfer takes place in the Au NA/MoS 2 heterostructure on the order of 200 fs with an injected electron density of about 5.6 × 10 12 cm −2 . Moreover, the pump‐power‐dependent photoluminescence spectra confirm that the exciton energy of MoS 2 can be enhanced, coupled, and reradiated by the Au NA. Such ultrafast plasmon‐induced hot electron transfer in the metal‐semiconductor heterostructure can enable novel 2D devices for light harvesting and photoelectric conversion.
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