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Wearable microgrids empowered by single-atom materials

Shichao Ding, Lu Yin, Zhaoyuan Lyu, Yue Cao, Yang Zhou, Wenlei Zhu, Joseph Wang, Yuehe Lin

2023The Innovation Materials14 citationsDOIOpen Access PDF

Abstract

<p>Wearable microgrids, a wearable system with integrated energy harvesting, storage, and regulation modules, and sensors, have potential to support human healthcare. However, wearable microgrids have not reached viability due to their high costs and limited performance, stability, and biocompatibility, awaiting significant breakthroughs, especially in material science filed. Single-atom materials (SAMs), one of the most promising forefronts of material, can overcome the shortcomings mentioned above and provide many extra advantages in various harvesters, energy storage devices, and wearable sensors. Herein, we discuss the potential of using SAMs in wearable devices to meet the demands of building practical energy-autonomous wearable microgrids towards extended comprehensive self-monitoring and human-machine interfacing.</p>

Topics & Concepts

InterfacingWearable computerWearable technologyComputer scienceEmbedded systemHuman healthNanotechnologyMaterials scienceComputer hardwareEnvironmental healthMedicineSupercapacitor Materials and FabricationAdvanced Sensor and Energy Harvesting MaterialsMXene and MAX Phase Materials
Wearable microgrids empowered by single-atom materials | Litcius