With the advent of IoT, industry 4.0 and precision agriculture an increasing interest has been devoted to sensors and transducers based on new materials and eco-friendly technologies. Recently, Bacterial Cellulose (BC) has been investigated as an intriguing solution for the realization of green devices and electronics. BC has excellent mechanical properties, it is fully biodegradable and greener then classical plant-derived cellulose. In this paper we investigate the influence of the geometry of BC based compounds on their mechano-electrical transduction capability. An experimental campaign has been addressed obtaining very intriguing results.

Geometrical Analysis of a Bacterial Cellulose-Based Sensing Element

Di Pasquale G.;Graziani S.
;
Pollicino A.;Trigona C.
2019-01-01

Abstract

With the advent of IoT, industry 4.0 and precision agriculture an increasing interest has been devoted to sensors and transducers based on new materials and eco-friendly technologies. Recently, Bacterial Cellulose (BC) has been investigated as an intriguing solution for the realization of green devices and electronics. BC has excellent mechanical properties, it is fully biodegradable and greener then classical plant-derived cellulose. In this paper we investigate the influence of the geometry of BC based compounds on their mechano-electrical transduction capability. An experimental campaign has been addressed obtaining very intriguing results.
2019
978-1-7281-0429-4
bacterial cellulose; biodegradable sensor; geometry analysis; greener transducers; ionic liquids
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11769/370406
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