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Dynamically tunable highly sensitive sensor based on graphene and black phosphorus composite metamaterial

Yiping Xu, Ziyi Wang, Yang Yang, Xin Huang, Xiaodong Zeng, Shubo Cheng, Zao Yi, S.Z. Yao, Lian Liu, Jiayi Zhou, Yunxuan Duan

2024Physica Scripta24 citationsDOI

Abstract

Abstract Focusing on the realization of multiple-detection-point sensors in the mid-infrared band, a dynamically tunable high-sensitive index refraction sensor based on graphene and black phosphorus (BP) composite metamaterial is proposed. By adjusting the height of the grating, the strength of the structural plasmon-induced absorption (PIA) can be enhanced within a certain range. The energy transfer mechanism of the system is analyzed by the coupled mode theory (CMT), the theoretical data of CMT fit well with the FDTD simulation results, which proves that the analysis of the system using the CMT model is correct. The resonant wavelengths of the PIA can be efficiently modulated by changing the Fermi level of graphene and the carrier density of BP. It is worth mentioning that under different environmental refractive indexes, our proposed system has excellent sensing characteristics in the mid-infrared band. The maximum sensitivity and the maximum figure of merit (FOM) are up to 5.174 μm/RIU and 26.449, respectively. This research could play an important role in mid-infrared optical sensors.

Topics & Concepts

Black phosphorusGrapheneMetamaterialComposite numberMaterials scienceOptoelectronicsPhosphorusNanotechnologyComposite materialMetallurgyEnergy Efficient Wireless Sensor NetworksGas Sensing Nanomaterials and SensorsIoT-based Smart Home Systems
Dynamically tunable highly sensitive sensor based on graphene and black phosphorus composite metamaterial | Litcius