In this work, we presented a new thermoelectrochromic device based on the preparation of a hydrogel-based electrolyte derived from cellulose, namely hydroxypropyl cellulose, with thermochromic properties and a good ion conduction at atmospheric conditions. With these premises, an electrochromic layer of PEDOT:PSS was developed to fabricate a multifunctional device capable of exploiting the TC properties of HCP when the critical temperature of 43°C is reached, where an increase in reflectance of 37% at 420 nm is reported and, at the same time, capable of undergoing a significant modulation of transmittance (52% at 650 nm) when a small external bias (2.5 V) is applied. To our knowledge, it is the first time that a smart window is designed embodying HPC and PEDOT:PSS in a single device, reporting a fully organic system suitable for several applications, from constructions to transportation.
Multifunctional hydrogel-based electrolytes for thermoelectrochromic devices / Cannavale, Alessandro; Pugliese, Marco; De Matteis, Valeria; Giannuzzi, Roberto; Mancarella, Francesca; Valenzano, Vitantonio; Ayr, Ubaldo; Liuzzi, Stefania; Maiorano, Vincenzo; Berardi, Umberto; Gigli, Giuseppe. - In: JOURNAL OF APPLIED POLYMER SCIENCE. - ISSN 0021-8995. - STAMPA. - 140:39(2023). [10.1002/app.54330]
Multifunctional hydrogel-based electrolytes for thermoelectrochromic devices
Cannavale, Alessandro;Ayr, Ubaldo;Liuzzi, Stefania;Berardi, Umberto;
2023-01-01
Abstract
In this work, we presented a new thermoelectrochromic device based on the preparation of a hydrogel-based electrolyte derived from cellulose, namely hydroxypropyl cellulose, with thermochromic properties and a good ion conduction at atmospheric conditions. With these premises, an electrochromic layer of PEDOT:PSS was developed to fabricate a multifunctional device capable of exploiting the TC properties of HCP when the critical temperature of 43°C is reached, where an increase in reflectance of 37% at 420 nm is reported and, at the same time, capable of undergoing a significant modulation of transmittance (52% at 650 nm) when a small external bias (2.5 V) is applied. To our knowledge, it is the first time that a smart window is designed embodying HPC and PEDOT:PSS in a single device, reporting a fully organic system suitable for several applications, from constructions to transportation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
