Ionogels, composed of ionic liquids and supporting networks, possess a plethora of
exceptional properties, including nonvolatility, remarkable thermal and electrochemical …

Conductive hydrogels (CHs) are characterized by tissue-like mechanical properties, multiple
stimuli-responsive abilities and favourable biocompatibility, enabling their wearable devices …

Thermoelectric materials are promising in relieving the energy crisis concerning harvesting
waste heat and providing a new environment-friendly self-power source for Internet of …

Poly (3, 4-ethylenedioxythiophene): poly (styrenesulfonate)(PEDOT: PSS) materials have
emerged as promising metallic conductors and semiconductors in photovoltaics, light …

More than half of the waste heat rejected into the environment has temperatures lower than
100° C, which accounts for nearly 85 PWh/year worldwide. Efficiently harvesting low-grade …

Ionic liquid‐based thermoelectric gels become a compelling candidate for thermoelectric
power generation and sensing due to their giant thermopower, good thermal stability, high …

In this study, we develop a stretchable/self-healable polymer, PEDOT: PAAMPSA: PA, with
remarkably high ionic thermoelectric (iTE) properties: an ionic figure-of-merit of 12.3 at 70 …

Ionic liquid–based ionogels emerge as promising candidates for efficient ionic
thermoelectric conversion due to their quasi-solid state, giant thermopower, high flexibility …

The giant thermopower of ionic thermoelectric materials has attracted great attention for
waste-heat recovery technologies. However, generating cyclic power by ionic thermoelectric …

Self-powered sensors that do not require external power sources are crucial for next-
generation wearable electronics. As environment-friendly ionic thermoelectric hydrogels can …