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Dynamically reconfigurable subwavelength optical device for hydrogen sulfide gas sensing

Zhengji Wen, Jialiang Lu, Weiwei Yu, Hao Wu, Hao Xie, Xiaohang Pan, Qianqian Xu, Ziji Zhou, Chong Tan, Dongjie Zhou, Chang Liu, Yan Sun, Ning Dai, Jiaming Hao

2021Photonics Research13 citationsDOI

Abstract

The importance of tunable subwavelength optical devices in modern electromagnetic and photonic systems is indisputable. Herein, a lithography-free, wide-angle, and reconfigurable subwavelength optical device with high tunability operating in the near-infrared regions is proposed and experimentally demonstrated, based on a reversible nanochemistry approach. The reconfigurable subwavelength optical device basically comprises an ultrathin copper oxide (CuO) thin film on an optical thick gold substrate by utilizing the reversible chemical conversion of CuO to sulfides upon exposure to hydrogen sulfide gas. Proof-of-concept experimental results show that the maximal modulation depth of reflectance can be as high as 90% at the wavelength of 1.79 μm with the initial thickness of CuO taken as 150 nm. Partially reflected wave calculations combined with the transfer matrix method are employed to analytically investigate the optical properties of the structure, which show good agreement with experimental results. We believe that the proposed versatile approaches can be implemented for dynamic control management, allowing applications in tunable photonics, active displays, optical encryption, and gas sensing.

Topics & Concepts

Materials scienceOptoelectronicsPhotonicsSubstrate (aquarium)OpticsLithographyNanophotonicsHydrogen sulfideSulfurPhysicsOceanographyMetallurgyGeologyPlasmonic and Surface Plasmon ResearchCopper-based nanomaterials and applicationsGold and Silver Nanoparticles Synthesis and Applications
Dynamically reconfigurable subwavelength optical device for hydrogen sulfide gas sensing | Litcius