Design of an optimized MoS2-based highly sensitive near-infrared surface plasmon resonance imaging biosensor

Abstract

A surface plasmon resonance imaging biosensor based on MoS2 deposited on Aluminium substrate is designed for high imaging sensitivity and detection accuracy. The proposed biosensor exhibits better performance than graphene-based biosensor in the near-infrared regime. A high imaging sensitivity of more than 970 RIU-1 is obtained at the wavelength of 1540 nm. The effect of aluminium thickness, number of MoS2 layers and the refractive index of sensing layer are investigated to obtain an optimized design for high sensor performance. In addition, the sensor performance comparison of MoS2 and other two-dimensional transition metal dichalcogenide materials based biosensor in the near-infrared regime are also presented. The designed MoS2 mediated surface plasmon resonance imaging biosensor could provide potential applications in surface plasmon resonance imaging detection of multiple biomolecular interactions simultaneously.