Sweetener-powered breakthrough: A Sungkyunkwan and Kyung Hee University team used stevia to enhance hydrogel-based nanogenerators, improving strength, conductivity, and transparency. Durable and ...
Biomimetic Strategy Simultaneously Enhances Output, Mechanical Strength, and Transparency; Extended to Wearable Motion ...
The in-situ locked bubbles create an AirCell structure that lowers the gel's Young's modulus, allowing it to rapidly conform to skin deformations. A novel conductive hydrogel, termed AirCell Hydrogel ...
1d
An everyday sweetener offers a surprisingly powerful engine for transparent, stretchable electronics
Professor Kyungwho Choi's team of the School of Mechanical Engineering at Sungkyunkwan University, in collaboration with ...
(Nanowerk Spotlight) Hydrogel materials show great promise for developing next-generation wearable sensors due to their flexibility, biocompatibility and tunable electrical properties. However, it ...
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