Add to ORKGGraphene has emerged as one of the strongest candidates for post-silicon technologies. One of the most important applications of graphene in the foreseeable future is sensing of particles of gas molecules, biomolecules or different chemicals or sensing of radiation of particles like alpha, gamma or cosmic particles. Several unique properties of graphene such as its extremely small thickness, very low mass, large surface to volume ratio, very high absorption coefficient, high mobility of charge carriers, high mechanical strength and high Young's modulus make it exceptionally suitable for making sensors. In this article we review the state-of-the-art in the application of graphene as a material and radiation detector, focusing on the current ...
Graphene, the archetypal two-dimensional material, is attracting increasing attention due to its uni...
Graphene is scientifically and commercially important because of its unique molecular structure whic...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
Graphene has emerged as one of the strongest candidates for post-silicon technologies. One of the mo...
Graphene is a 2D material with superior properties, since it has the advantage of being both conduct...
The discovery of graphene’s special properties has triggered a huge amount of research activities ar...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
Novel technology in radiation detection is critical to advancing radiation detectors for their many ...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
The resistivity of graphene is sensitive to the presence of gas molecules adsorbed on it. Since grap...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
In this paper we outline our work towards high sensitivity graphene-based detectors at X-Ray, Terahe...
In order to verify the performance of a graphene-based space radiation detection sensor, the radiati...
Graphene, the archetypal two-dimensional material, is attracting increasing attention due to its uni...
Graphene is scientifically and commercially important because of its unique molecular structure whic...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
Graphene has emerged as one of the strongest candidates for post-silicon technologies. One of the mo...
Graphene is a 2D material with superior properties, since it has the advantage of being both conduct...
The discovery of graphene’s special properties has triggered a huge amount of research activities ar...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
Novel technology in radiation detection is critical to advancing radiation detectors for their many ...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
The resistivity of graphene is sensitive to the presence of gas molecules adsorbed on it. Since grap...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...
In this paper we outline our work towards high sensitivity graphene-based detectors at X-Ray, Terahe...
In order to verify the performance of a graphene-based space radiation detection sensor, the radiati...
Graphene, the archetypal two-dimensional material, is attracting increasing attention due to its uni...
Graphene is scientifically and commercially important because of its unique molecular structure whic...
We present the first steps to develop radiation sensors based on the graphene field effect transisto...