Resolution enhancement using a multi-layered aluminum-based plasmonic device for chikungunya virus detection

Abstract: Biomolecular variations can be accounted for by changes in the intrinsic properties of the surrounding medium, such as the refractive index. This work employs such an arrangement using a modi ed attenuated total internal re ection con guration for telecommunication wavelength (1550nm). The phenomenon of surface plasmon resonance is initiated by Aluminum (Al) metal due to its low cost and better compatibility with CMOS devices. To achieve improved plasmonic response in terms of the sensor's resolution, we have … Show more

“…However, the refractive indices for infected components are slightly different: 1.70, 1.395, 1.38, and 1.33. 8,34,35 Figure 4 represents the transmittance spectrum curves through the TPC presuming normal blood compounds and infected blood compounds with various materials with distinct refractive indices were introduced into the defect layer under initial conditions.…”

Optimization of a ternary photonic crystal biosensor for enhanced chikungunya virus detection

“…However, the refractive indices for infected components are slightly different: 1.70, 1.395, 1.38, and 1.33. 8,34,35 Figure 4 represents the transmittance spectrum curves through the TPC presuming normal blood compounds and infected blood compounds with various materials with distinct refractive indices were introduced into the defect layer under initial conditions.…”

Optimization of a ternary photonic crystal biosensor for enhanced chikungunya virus detection

Design and comparative analysis of aluminum-BiFeO3-based plasmonic device in the near-infrared region

Improved ZnO-Ag-graphene oxide surface plasmon resonance organic sensor