Title :
Multilayer Graphene-based films for strain sensing
Author :
Rinaldi, A. ; Proietti, A. ; Tamburrano, Alessio ; De Bellis, G. ; Mulattieri, M. ; Sarto, M.S.
Author_Institution :
Res. Center for Nanotechnol. Appl. to Eng., Sapienza Univ., Rome, Italy
Abstract :
In this work we investigate the piezoresistive effect in multilayer graphene (MLG) based films produced by two different cost-effective techniques, spray coating and drop casting. Both techniques enable the direct deposition of the sensor over the structure to be monitored. The piezoresistive behavior of the MLG-based sensors has been investigated experimentally by measuring the variation of the electrical resistance during three point bending tests. The sensor response has been stabilized through an optimized mechanical treatment. The obtained results show that the produced sensors are characterized by a gauge factor in the range 20-50 at very small strains (i.e. below 0.2%).
Keywords :
casting; electric resistance measurement; graphene; piezoresistive devices; spray coating techniques; strain gauges; strain measurement; strain sensors; thin film sensors; C; MLG-based sensor; deposition; drop casting; electrical resistance measurement; gauge factor; multilayer graphene-based film; optimized mechanical treatment; piezoresistive effect; spray coating; strain sensing; three point bending testing; Casting; Films; Graphene; Piezoresistance; Strain; Suspensions; Graphene; drop casting; spray deposition; strain sensor;
Conference_Titel :
Nanotechnology (IEEE-NANO), 2014 IEEE 14th International Conference on
Conference_Location :
Toronto, ON
DOI :
10.1109/NANO.2014.6967987
