In this essay, a tunable metamaterial-based biosensor is proposed for simultaneous
monitoring of blood components including cells, plasma, water, thrombus, and urine …

A refractive index sensor using two concentric triple racetrack resonators with plasmonic
metal–insulator–metal (MIM) waveguides is suggested to provide more freedom for sensing …

In this work, a gas sensor based on the plasmonic double-layer graphene nanograting
(GNG) structure with an enhanced figure of merit (FoM) is presented in the near-infrared …

Here, a novel plasmon-induced transparency (PIT) sensing platform based on a
Kretschmann–Raether configuration with graphene/J-aggregate materials is proposed. The …

With plasmonics taking the lead in most sensing applications, research has geared towards
alternative, cost-effective materials that can strive for large-scale production along with …

In the present paper, a nanostructure plasmonic gas sensor based on ringresonator
structure at the wavelength range of 0.6-0.9 μm is presented. The plasmonicmaterials/SiO2 …

In this paper, using double-layer graphene nanograting arrays on top of a titanium nitride
ground plane, a tunable plasmonic sensor has been presented for mid-infrared chemical …

Taking advantage of plasmonic nanostructures for light trap** in thin-film silicon solar cells
has attracted ample attention among researchers. Titanium nitride (TiN) has recently been …

The plasmonic material properties of aluminum allow active plasmon resonances extending
from the blue color in the visible range to the ultraviolet (UV) region of the spectrum …

A novel and efficient Fabry-Perot biosensor on the tip of a dual-core single-mode optical
fiber is proposed. The incident light emerges from one of the cores and is coupled to the …