Sensitivity Enhancement of a Surface Plasmon Resonance Sensor with Platinum Diselenide

The extraordinary optoelectronic properties of platinum diselenide (PtSe(2)), whose structure is similar to graphene and phosphorene, has attracted great attention in new rapidly developed two-dimensional (2D) materials beyond the other 2D material family members. We have investigated the surface plasmon resonance (SPR) sensors through PtSe(2) with the transfer matrix method. The simulation results show that the anticipated PtSe(2) biochemical sensors have the ability to detect analytic. It is evident that only the sensitivities of Ag or Au film biochemical sensors were observed at 118°/RIU (refractive index unit) and 130°/RIU, whereas the sensitivities of the PtSe(2)-based biochemical sensors reached as high as 162°/RIU (Ag film) and 165°/RIU (Au film). The diverse biosensor sensitivities with PtSe(2) suggest that this kind of 2D material can adapt SPR sensor properties.