This study explores eco-friendly alternatives to flexible plastic substrates aiming to mitigate the environmental impact of electronics. Thin-film temperature sensors were fabricated on CRUSH FSCTN-certified paper substrates made with coconut, coffee, cacao, and cherry fiber waste, substituting 15% of traditional tree cellulose. The sensors were created by sputtering a semiconducting thin-film layer of InGaZnO and zinc electrodes onto the paper substrates. The devices’ responses to relative humidity changes from 2.9 to 73% were recorded, alongside their sensing performance for temperatures 25∘C and 70∘C. The results indicate that the sensors perform optimally when subjected to sudden and significant temperature changes and portray sensitivities values of -1.83%∘C-1 (heating) and -1.38% ∘C-1 (cooling). Additionally, the dissolution of the transient sensors in water was examined to assess their sustainability.
Suitability of plant fiber residue-based paper as substrates for sustainable thin-film thermistors / Nijkoops, A.; Bhatt, D.; Carrasco-Pena, A.; Husain, Q. Z.; Rapagnani, N.; van Bezooijen, A.; Cohen, N.; Cantarella, G.; Munzenrieder, N.. - In: MRS ADVANCES. - ISSN 2059-8521. - 9:20(2024), pp. 1560-1567. [10.1557/s43580-024-00989-9]
Suitability of plant fiber residue-based paper as substrates for sustainable thin-film thermistors
Cantarella G.;
2024
Abstract
This study explores eco-friendly alternatives to flexible plastic substrates aiming to mitigate the environmental impact of electronics. Thin-film temperature sensors were fabricated on CRUSH FSCTN-certified paper substrates made with coconut, coffee, cacao, and cherry fiber waste, substituting 15% of traditional tree cellulose. The sensors were created by sputtering a semiconducting thin-film layer of InGaZnO and zinc electrodes onto the paper substrates. The devices’ responses to relative humidity changes from 2.9 to 73% were recorded, alongside their sensing performance for temperatures 25∘C and 70∘C. The results indicate that the sensors perform optimally when subjected to sudden and significant temperature changes and portray sensitivities values of -1.83%∘C-1 (heating) and -1.38% ∘C-1 (cooling). Additionally, the dissolution of the transient sensors in water was examined to assess their sustainability.
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