Liquid metal architectures for soft and wearable energy harvesting devices

Future advanced wearable energy harvesters need to have high power densities, functionality under large deformations, scalability, and robust resistance against mechanical damages (i.e. fatigue, delamination, and fracture). To achieve this, ultra-flexible, high dielectric, and thermally conductive m...

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Veröffentlicht in:	Multifunctional materials 2021-03, Vol.4 (1), p.12001
Hauptverfasser:	Zadan, Mason, Chiew, Cerwyn, Majidi, Carmel, Malakooti, Mohammad H
Format:	Artikel
Sprache:	eng
Schlagworte:	dielectric elastomer generators energy harvesting eutectic gallium indium liquid metal thermoelectric generators triboelectric nanogenerators wearable electronics
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description	Future advanced wearable energy harvesters need to have high power densities, functionality under large deformations, scalability, and robust resistance against mechanical damages (i.e. fatigue, delamination, and fracture). To achieve this, ultra-flexible, high dielectric, and thermally conductive materials along with deformable and robust electrodes are needed. Here, we review recent progress in synthesis and integration of liquid metal (LM) material architectures as the building blocks of emerging wearable energy harvesting devices. After a brief introduction to room temperature LM alloys, LM's various applications in a variety of soft and stretchable power harvesting devices including thermoelectric, triboelectric, dielectric elastomer, and piezoelectric generators are summarized. The unique opportunities and challenges introduced by LM material architectures in this field are also discussed.
doi_str_mv	10.1088/2399-7532/abd4f0
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subjects	dielectric elastomer generators energy harvesting eutectic gallium indium liquid metal thermoelectric generators triboelectric nanogenerators wearable electronics
title	Liquid metal architectures for soft and wearable energy harvesting devices
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