Non disponible en dehors du Royaume-Uni et de l'Irlande
Application
Webinar: Graphene-Based Nanomaterials for Versatile Biosensors
Graphene may be extensively incorporated in several applications, such as; nanoelectronics, fuel cells, solar cell, photovoltaic devices, in biosensing, optical biosensors, MEMS, NEMS, field effect transistors (FETs), chemical sensors, nanocarriers in biosensing assays., 4
General description
Growth Method: CVD synthesisTransfer Method: Clean transfer methodQuality Control: Optical Microscopy & Raman checkedSize: 1 cm x 1 cmAppearance (Color): TransparentTransparency: >97%Appearance (Form): FilmCoverage: >95%Number of graphene layers: 1Thickness (theoretical): 0.345 nmFET Electron Mobility on Al2O3: 2; 000 cm2/V·sFET Electron Mobility on SiO2/Si (expected): 4; 000 cm2/V·sSheet Resistance: 600 Ohms/sq.Grain size: Up to 10 µmSubstrate QuartzSize: 1.25 cm x 1.25 cmFlatness: bow: 20µm; warp: 30µmRoughness:6 angstroms (on the polished side)Surface: Double side polished
Graphene is a unique one atom thick, two dimensional allotrope of carbon. Among all the synthesis technique, chemical vapor deposition of graphene on various substrates is the most promising route for the large scale production of good quality graphene. Graphene deposited on dielectric surface may exhibit better performance in graphene based FETs. Graphene deposited on quartz may be deposited by direct chemical vapor deposition via a sacrificial copper film.
Ce produit répond aux critères suivants pour être admissible aux récompenses suivantes :