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All‐Soft and Stretchable Thermogalvanic Gel Fabric for Antideformity Body Heat Harvesting Wearable

Tianpeng Ding, Yi Zhou, Xiao‐Qiao Wang, Chen Zhang, Tongtao Li, Yin Cheng, Wanheng Lu, Jiaqing He, Ghim Wei Ho

2021Advanced Energy Materials97 citationsDOI

Abstract

Abstract Currently, “wearable thermal‐electric harvester” is a loose term for technology that embraces rigid thermoelectric leg incorporated flexible substrates. In reality, they are not exclusively flexible, much less totally soft and stretchable. Likewise, conventional substrate‐dependent thermogalvanic cells lack the highly sought after mechanical adaptability, and hinder the full exploitation of the inherent merit of their fluidic matrices. The existence of the substrate causes poor air permeability and worse still, leads to low heat transfer efficiency. Here, a soft and stretchable thermogalvanic fabric directly woven out of p/n alternating hydrogel‐based fibers is proposed. In addition to improved wearing comfort, the compliant mechanical properties of the thermogalvanic fabric possess desired adaptability to irregular and continuously deformed skin, so as to realize conformal and efficient body heat harvesting. The scalable and modular, processable soft gel serves as the groundwork to the realization of prototypical arbitrary fabric design and potentially a new battery‐free bodily heat harvesting wearable.

Topics & Concepts

Materials scienceWearable computerAdaptabilityEnergy harvestingModular designSoft materialsStretchable electronicsSubstrate (aquarium)ScalabilityWearable technologyNanotechnologyMechanical engineeringComputer scienceEmbedded systemElectrical engineeringElectronicsPower (physics)Operating systemDatabaseEcologyPhysicsQuantum mechanicsOceanographyGeologyBiologyEngineeringAdvanced Sensor and Energy Harvesting MaterialsAdvanced Thermoelectric Materials and DevicesInnovative Energy Harvesting Technologies
All‐Soft and Stretchable Thermogalvanic Gel Fabric for Antideformity Body Heat Harvesting Wearable | Litcius