Dual-mode independent detection of pressure and refractive index by miniature grating-coupled surface plasmon sensor

Multiple parameters need to be monitored to analyze the kinetics of biological progresses. Surface plasmon polariton resonance sensors offer a non-invasive approach to continuously detect the local change of refractive index of molecules with high sensitivity. However, the fabrication of miniaturized, compact, and low-cost sensors is still challenging. In this paper, we propose and demonstrate a grating-coupled SPR sensor platform featuring dual mode operation for simultaneous sensing of pressure and refractive index, which can be fabricated using a highly-efficient low-cost method, allowing large-scale production. Both sensing functionalities are realized by optical means via monitoring the spectral positions of a surface plasmon polariton mode (for refractive index sensing) and Fabry-Perot or metal-insulator-metal modes (for pressure sensing), which are supported by the structure. Simultaneous measurement of refractive index with the sensitivity of 494 nm/RIU and pressure was demonstrated experimentally. The proposed platform is promising for biomonitoring that requires both high refractive index sensitivity and local pressure detection. Published by Optica Publishing Group under the terms of the Creative Commons Attribution 4.0 License.

Automated summary

This paper presents and demonstrates a grating-coupled SPR sensor platform with dual mode operation for simultaneous sensing of pressure and refractive index. The platform can be fabricated using a highly-efficient low-cost method, allowing large-scale production. By monitoring the spectral positions of different modes, simultaneous measurement of refractive index and pressure is achieved.