Hydrogenated Boron Phosphide THz-Metamaterial-Based Biosensor for Diagnosing COVID-19: A DFT Coupled FEM Study

Abstract: Recent reports focus on the hydrogenation engineering of monolayer boron phosphide and simultaneously explore its promising applications in nanoelectronics. Coupling density functional theory and finite element method, we investigate the bowtie triangle ring microstructure composed of boron phosphide with hydrogenation based on structural and performance analysis. We determine the carrier mobility of hydrogenated boron phosphide, reveal the effect of structural and material parameters on resonance frequencies,… Show more

“…This can be achieved through two probe and four probe FET measurements and SERS-based SARS-CoV-2 biosensing in liquid samples such as blood, tears, sweat, or saliva. 197 Furthermore, TMOs have favorable electron mobility that mitigates the prevalent issue of rapid charge recombination observed in TMOs. 198 Additionally, the lattice vibrations and electron-phonon interactions in 2D TMOs may exhibit distinct characteristics compared to those observed in bulk oxides.…”

Engineered two-dimensional nanomaterials based diagnostics integrated with internet of medical things (IoMT) for COVID-19

“…This can be achieved through two probe and four probe FET measurements and SERS-based SARS-CoV-2 biosensing in liquid samples such as blood, tears, sweat, or saliva. 197 Furthermore, TMOs have favorable electron mobility that mitigates the prevalent issue of rapid charge recombination observed in TMOs. 198 Additionally, the lattice vibrations and electron-phonon interactions in 2D TMOs may exhibit distinct characteristics compared to those observed in bulk oxides.…”

Engineered two-dimensional nanomaterials based diagnostics integrated with internet of medical things (IoMT) for COVID-19

Optical band gap engineering and comparison of conductivity of CaTiO3 and LiNbO3 doped PVDF films