Issue 18, 2024

Multiple-polarization-sensitive photodetector Based on a plasmonic metasurface

Abstract

On-chip polarization-sensitive photodetectors are highly desired for ultra-compact optoelectronic systems. It has been demonstrated that polarization-sensitive photodetection can be realized using intrinsic chiral and anisotropy materials. However, these photodetectors can only realize the detection of either circularly polarized light (CPL) or linear polarized light (LPL) and are not applicable to multiple-polarization-sensitive photodetection. Herein, we experimentally demonstrate a metasurface-integrated semiconductor to realize multiple-polarization-sensitive photodetection at visible wavelengths. This device is composed of a MoSe2 monolayer on an H-shaped plasmonic nanostructure. The geometric chirality and anisotropy of the H-shaped nanostructure result in CPL and LPL resolved optical responses. By integrating a plasmonic metasurface with monolayer MoSe2, we converted polarization-sensitive optical absorption to the polarization-sensitive photocurrent of the device through the photoconductive effect. Polarization-sensitive photocurrent responses to both CPL and LPL are systematically investigated, which demonstrate a high photocurrent circular dichroism (CD) of 0.35 at a wavelength of 810 nm and photocurrent linear polarization (LP) of 0.4 at a wavelength of 633 nm. Our results provide a potential pathway to realize multiple-polarization-sensitive applications in medicine analysis, biology, and remote sensing.

Graphical abstract: Multiple-polarization-sensitive photodetector Based on a plasmonic metasurface

Supplementary files

Article information

Article type
Paper
Submitted
16 شعبان 1445
Accepted
22 رمضان 1445
First published
22 رمضان 1445

Nanoscale, 2024,16, 8907-8914

Multiple-polarization-sensitive photodetector Based on a plasmonic metasurface

Q. Bai, X. Huang, S. Du, Y. Guo, C. Li, W. Li, J. Li and C. Gu, Nanoscale, 2024, 16, 8907 DOI: 10.1039/D4NR00808A

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