Inkjet printed graphene-based chemiresistive sensors to NO

C. Schiattarella, T. Polichetti, F. Villani, F. Loffredo, B. Alfano, E. Massera, M.L. Miglietta, G. Di Francia

Research output: Contribution to conferencePaper

3 Citations (Scopus)


In this work, the possibility of manufacturing chemiresistive gas sensing devices by inkjet printing different LPE (Liquid Phase Exfoliation) graphene suspensions, formulated in standard organic solvents or aqueous mixtures, on rigid and flexible substrates has been studied. The sensing film has been obtained by printing a different number of graphene layers, depending on the specific ink/substrate system. The device performances have been investigated upon exposure to different concentrations of NO2 at ambient pressure and temperature, addressing the device-to-device variation as function of the number of printed layers and the base conductance.
Original languageEnglish
Publication statusPublished - 2018
Event3rd National Conference on Sensors, 2016 - Rome, Italy
Duration: 1 Jan 2018 → …


Conference3rd National Conference on Sensors, 2016
Period1/1/18 → …


All Science Journal Classification (ASJC) codes

  • Industrial and Manufacturing Engineering

Cite this

Schiattarella, C., Polichetti, T., Villani, F., Loffredo, F., Alfano, B., Massera, E., Miglietta, M. L., & Di Francia, G. (2018). Inkjet printed graphene-based chemiresistive sensors to NO. Paper presented at 3rd National Conference on Sensors, 2016, Rome, Italy.