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Worldwide, electronic waste represents the fastest-growing stream of waste. With an increasing number of connected devices, passive and eco-friendly environmental sensing solutions need to be developed. Wireless passive devices for RFID and sensing exist, however, most of them rely on non-biodegradable materials. Willing to produce entirely green radio-frequency (RF) resonators on a paper substrate, we identify potential biodegradable materials to be used as encapsulation and humidity sensing layers. Resonator encapsulation is mandatory to prevent humidity interaction with the transducer while a sensing layer above the resonator enables a good response to humidity. In this work, the radio-frequency behavior of these materials was characterized when implemented on a 3.3 GHz resonating microstrip structure made of copper on FR4 substrate. The response in resonance frequency while varying the relative humidity (RH) from 20% to 80% was monitored. Beeswax-coated resonators exhibited no change in resonance frequency when exposed to humidity and therefore provided excellent encapsulation properties. 10 μm-thick layers of psyllium, konjac and egg-albumin displayed suitable sensing behavior with suitable frequency shifts above 100 MHz from 20% to 80% RH. Konjac and psyllium showed the best compatibility when coated on the beeswax encapsulant, exhibiting reversibility and low hysteresis when exposed to humidity variations.
Danick Briand, James Alec Pierce Bourely, Jaemin Kim, Xavier Aeby, Oleksandr Vorobyov
Ivo Furno, Fabio Avino, Rita Agus, Lorenzo Ibba