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All-polymer wearable thermoelectrochemical cells harvesting body heat

Shuai Zhang, Yuetong Zhou, Yuqing Liu, Gordon G. Wallace, Stephen Beirne, Jun Chen

2021iScience22 citationsDOIOpen Access PDF

Abstract

Wearable thermoelectrochemical cells have attracted increasing interest due to their ability to turn human body heat into electricity. Here, we have fabricated a flexible, cost-effective, and 3D porous all-polymer electrode on an electrical conductive polymer substrate via a simple 3D printing method. Owing to the high degree of electrolyte penetration into the 3D porous electrode materials for redox reactions, the all-polymer based porous 3D electrodes deliver an increased power output of more than twice that of the film electrodes under the same mass loading using either n-type or p-type gel electrolytes. To realize the practical application of our thermocell, we fabricated 18 pairs of n-p devices through a series connection of single devices. The strap shaped thermocell arrangement was able to charge up a commercial supercapacitor to 0.27 V using the body heat of the person upon which it was being worn and in turn power a typical commercial lab timer.

Topics & Concepts

SupercapacitorMaterials scienceElectrodeElectrolytePolymerNanotechnologyWearable technologyPenetration (warfare)Conductive polymerTimerWearable computerElectrical conductorOptoelectronicsCapacitanceComposite materialElectrical engineeringChemistryComputer scienceEngineeringMicrocontrollerEmbedded systemPhysical chemistryOperations researchAdvanced Thermoelectric Materials and DevicesConducting polymers and applicationsSupercapacitor Materials and Fabrication
All-polymer wearable thermoelectrochemical cells harvesting body heat | Litcius