Graphene/DNA nanostructured films for bioinspired sensing of UV radiation effects

Paper number

IAC-14,C2,P,46,x25413

Author

Dr. M. Gabriella Santonicola, Sapienza Università di Roma, Italy

Coauthor

Ms. Marta Gina Coscia, Sapienza Università di Roma, Italy

Coauthor

Dr. Sabina Botti, ENEA - UTAPRAD MNF, Italy

Coauthor

Dr. Susanna Laurenzi, Sapienza Università di Roma, Italy

Year

2014

Abstract

Bio-based sensor nanotechnology is a fast growing field that can provide efficient solutions to monitor radiation effects in space environment. In our research we investigate the integration of UV-sensitive biological recognition elements, such as DNA, in carbon-based hybrid nanomaterials for the fabrication of miniaturized and light-weight sensors that can be used to monitor the biological effects of hostile ultraviolet radiation in space. In particular, in this paper we present results on the fabrication and characterization of hybrid nanostructured films containing graphene material and DNA strands for an in-situ and real time detection of UV radiation damaging effects from changes of the nanofilm electrical properties. The biosensing graphene/DNA units are embedded in a UV-transparent polymeric matrix based on silicon polymers, which allows for the fabrication of flexible films with high thermal stability.

Abstract document

IAC-14,C2,P,46,x25413.brief.pdf

Manuscript document

IAC-14,C2,P,46,x25413.pdf (🔒 authorized access only).

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