Irrera, F.; Gumiero, A.; Zampogna, A.; Boscari, F.; Avogaro, A.; Gazzanti Pugliese di Cotrone, M.A.; Patera, M.; Della Torre, L.; Picozzi, N.; Suppa, A.
Multisensor Integrated Platform Based on MEMS Charge Variation Sensing Technology for Biopotential Acquisition. Sensors 2024, 24, 1554.
https://doi.org/10.3390/s24051554
AMA Style
Irrera F, Gumiero A, Zampogna A, Boscari F, Avogaro A, Gazzanti Pugliese di Cotrone MA, Patera M, Della Torre L, Picozzi N, Suppa A.
Multisensor Integrated Platform Based on MEMS Charge Variation Sensing Technology for Biopotential Acquisition. Sensors. 2024; 24(5):1554.
https://doi.org/10.3390/s24051554
Chicago/Turabian Style
Irrera, Fernanda, Alessandro Gumiero, Alessandro Zampogna, Federico Boscari, Angelo Avogaro, Michele Antonio Gazzanti Pugliese di Cotrone, Martina Patera, Luigi Della Torre, Nicola Picozzi, and Antonio Suppa.
2024. "Multisensor Integrated Platform Based on MEMS Charge Variation Sensing Technology for Biopotential Acquisition" Sensors 24, no. 5: 1554.
https://doi.org/10.3390/s24051554
APA Style
Irrera, F., Gumiero, A., Zampogna, A., Boscari, F., Avogaro, A., Gazzanti Pugliese di Cotrone, M. A., Patera, M., Della Torre, L., Picozzi, N., & Suppa, A.
(2024). Multisensor Integrated Platform Based on MEMS Charge Variation Sensing Technology for Biopotential Acquisition. Sensors, 24(5), 1554.
https://doi.org/10.3390/s24051554