极化(电化学)
光电子学
异质结
材料科学
光电效应
各向异性
功率消耗
波长
光学
带隙
光通信
极化度
偏振旋转器
光功率
标识
DOI:10.1021/acs.jpclett.5c03575
摘要
Anisotropic two-dimensional materials, with their unique physical properties, not only provide a critical material foundation for high-performance polarization-sensitive photoelectric synapses but also offer a feasible approach to miniaturized integrated polarization detection. However, most existing research on photoresponse focuses on the visible light band, and studies on the influencing factors and regulatory methods of photocurrents in polarized synaptic systems remain relatively limited. In this work, we successfully realized polarization-sensitive synaptic functionality in the near-infrared regime by constructing a Au/PdSe2/graphene heterostructure. This heterojunction exhibits a maximum polarization ratio of 6.5 at a wavelength of 2200 nm and achieves an ultralow energy consumption of 1.48 pJ. Moreover, the polarization ratio can be systematically tuned by the optical power density, exhibiting a variation from 4.9 to 6.5. This work fills the technical gap in near-infrared polarization perception and provides valuable insights for optimizing the polarization detection performance of high dynamic range optoelectronic devices by investigating the regulatory mechanisms of polarized photocurrents.
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