Role of Ions in Hydrogels with an Ionic Seebeck Coefficient of 52.9 mV K-1

Ionic thermoelectric (i-TE) material with mobile ions as charge carriers has the potential to generate large thermal voltages at low operating temperatures. This study highlights the role of ions in i-TE hydrogels employing a poly(vinyl alcohol) (PVA) polymer matrix and a number of ion providers, e.g., KOH, KNO3, KCl, KBr, NaI, KI, and CsI. The relationship between the intrinsic physical parameters of the ion and the thermoelectric performance is established, indicating the ability to influence the hydrogen bond by the ion is a crucial factor. Among these i-TE hydrogels, the PVA/CsI hydrogel exhibits the largest ionic Seebeck coefficient, reaching 52.9 mV K-1, which is the largest of all i-TE materials reported to date. In addition, our work demonstrates the influence of ions on polymer configuration and provides an avenue for ion selection in the Soret effect in ionic thermoelectrics.

Automated summary

This study focuses on the use of mobile ions as charge carriers in i-TE hydrogels and reveals that the influence of ions on hydrogen bonding is a crucial factor in determining thermoelectric performance. Among various i-TE hydrogels, the PVA/CsI hydrogel demonstrates the highest ionic Seebeck coefficient of 52.9 mV K-1, which is the largest among all reported i-TE materials to date.