12 Facts About Graphene transistor

Graphene transistor has been reported to be efficiently taking up cancerous cells thereby enabling the design of drug delivery agents for cancer therapy.

Graphene transistor is reported to have enhanced PCR by increasing the yield of DNA product.

Graphene transistor is so thin that water has near-perfect wetting transparency which is an important property particularly in developing bio-sensor applications.

Graphene transistor 'flying carpet' was demonstrated to deliver two anti-cancer drugs sequentially to the lung tumor cells in a mouse model.

Graphene transistor based FRET biosensors can detect DNA and the unwinding of DNA using different probes.

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Graphene transistor reacts to the infrared spectrum at room temperature, albeit with sensitivity 100 to 1000 times too low for practical applications.

Graphene transistor has been used on different substrates such as Si, CdS and CdSe to produce Schottky junction solar cells.

Graphene transistor can be assembled into a film electrode with low roughness.

Graphene transistor could solve a major problem for fuel cells: fuel crossover that reduces efficiency and durability.

Graphene transistor-based plasmonic nano-antenna can operate efficiently at millimeter radio wavelengths.

Graphene transistor's properties suggest it as a reference material for characterizing electroconductive and transparent materials.

Graphene transistor has been used as a reinforcing agent to improve the mechanical properties of biodegradable polymeric nanocomposites for engineering bone tissue.