Structure dependence of gas sensing responsivity on graphene nanoribbons covered TiO2 nanotubes, nano-bugles array

“…The field emission performance improvement study via the graphene aligned with the gradient on the substrate surface shows the field enhancement factor increasing and the turn-on field decreasing because of the graphene composition [ 21 ]. Another responsivity study of the heteroepitaxial interfaces with 2D graphene covered on 1D nanotubes as a hydrogen gas sensing layer shows the aggravation of composition effect with increasing graphene content because of the gas diffusion interactions between two-dimensional layered graphene structure and various geometries [ 22 ]. Moreover, the biosensors study for glucose detection shows the electrochemical interaction, whereas glucose oxidase (GOx) is adsorbing on laser-induced graphene electrodes because of its high chemical stability, excellent electrical conductivity, and high specific surface area [ 23 ].…”

The Efficiency Study of Graphene Synthesis on Copper Substrate via Chemical Vapor Deposition Method with Methanol Precursor

“…The field emission performance improvement study via the graphene aligned with the gradient on the substrate surface shows the field enhancement factor increasing and the turn-on field decreasing because of the graphene composition [ 21 ]. Another responsivity study of the heteroepitaxial interfaces with 2D graphene covered on 1D nanotubes as a hydrogen gas sensing layer shows the aggravation of composition effect with increasing graphene content because of the gas diffusion interactions between two-dimensional layered graphene structure and various geometries [ 22 ]. Moreover, the biosensors study for glucose detection shows the electrochemical interaction, whereas glucose oxidase (GOx) is adsorbing on laser-induced graphene electrodes because of its high chemical stability, excellent electrical conductivity, and high specific surface area [ 23 ].…”

The Efficiency Study of Graphene Synthesis on Copper Substrate via Chemical Vapor Deposition Method with Methanol Precursor