The peculiar properties of the graphene/DNA interface show interesting trends under irradiation, which is promising for the realization of sensors with superior performances for a wide range of applications. In this frame, hybrid nanomaterials based on the assembly of DNA and graphene nanoplatelets (GNP) have been used for the real time detection of UV radiation, and are expected to be useful to monitor the biological damage induced by UV in Earth and space environment.
SERS and Raman studies of UV-Induced Modification of Graphene/DNA Interface / Botti, S.; Rufoloni, A.; Gay, S.; Laurenzi, Susanna; Rindzevicius, T.; Schmidt, M. S.; Santonicola, Mariagabriella. - ELETTRONICO. - (2016). ( 18° Convegno Italiano delle Tecnologie Fotoniche - FOTONICA 2016 Roma Giugno 6-8, 2016).
SERS and Raman studies of UV-Induced Modification of Graphene/DNA Interface
LAURENZI, SUSANNA;SANTONICOLA, MARIAGABRIELLA
2016
Abstract
The peculiar properties of the graphene/DNA interface show interesting trends under irradiation, which is promising for the realization of sensors with superior performances for a wide range of applications. In this frame, hybrid nanomaterials based on the assembly of DNA and graphene nanoplatelets (GNP) have been used for the real time detection of UV radiation, and are expected to be useful to monitor the biological damage induced by UV in Earth and space environment.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
