Summary: Skin-like electronics are developing rapidly to realize a variety of applications such as wearable sensing and soft robotics. Hydrogels, as soft biomaterials, have been studied intensively for skin-like electronic utilities due to their unique features such as softness, wetness, biocompatibility and ionic sensing capability. These features could potentially blur the gap between soft biological systems and hard artificial machines. However, the development of skin-like hydrogel devices is still in its infancy and faces challenges including limited functionality, low ambient stability, poor surface adhesion, and relatively high power consumption (as ionic sensors). This review aims to summarize current development of skin-inspired hy...
Hydrogels are polymer networks infiltrated with water. Natural hydrogels constitute the major compon...
Hydrogels are fascinating soft, stretchy materials that contain a high amount of water, up to 98% , ...
Wearable and implantable devices hold great promise to transform the society by making healthcare co...
Human skin is soft, stretchable, elastic, has a strong ability to heal when injured, and can sense v...
© 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancemen...
Traditional wearable devices are mainly fabricated using chemically synthetic organic and inorganic ...
Herein are summarized recent trends in the use of hydrogels in robotics, electronics, actuators, and...
There are numerous developments taking place in the field of biorobotics, and one such recent breakt...
Ionic gel-based electronic devices are essential in future healthcare/biomedical applications, such ...
Conductive hydrogels are a class of composite materials that consist of hydrated and conducting poly...
Flexible sensors which are highly stretchable, sensitive, and self-adhesive are critically required ...
Soft biomimetic electronic devices primarily comprise an electronic skin (e-skin) capable of impleme...
Human skin provides an interface that transduces external stimuli into electrical signals for commun...
© 2021 by the authors. Licensee MDPI, Basel, Switzerland.Soft biomimetic electronic devices primaril...
Conductive hydrogels are ideal for flexible sensors, but it is still a challenge to produce such hyd...
Hydrogels are polymer networks infiltrated with water. Natural hydrogels constitute the major compon...
Hydrogels are fascinating soft, stretchy materials that contain a high amount of water, up to 98% , ...
Wearable and implantable devices hold great promise to transform the society by making healthcare co...
Human skin is soft, stretchable, elastic, has a strong ability to heal when injured, and can sense v...
© 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancemen...
Traditional wearable devices are mainly fabricated using chemically synthetic organic and inorganic ...
Herein are summarized recent trends in the use of hydrogels in robotics, electronics, actuators, and...
There are numerous developments taking place in the field of biorobotics, and one such recent breakt...
Ionic gel-based electronic devices are essential in future healthcare/biomedical applications, such ...
Conductive hydrogels are a class of composite materials that consist of hydrated and conducting poly...
Flexible sensors which are highly stretchable, sensitive, and self-adhesive are critically required ...
Soft biomimetic electronic devices primarily comprise an electronic skin (e-skin) capable of impleme...
Human skin provides an interface that transduces external stimuli into electrical signals for commun...
© 2021 by the authors. Licensee MDPI, Basel, Switzerland.Soft biomimetic electronic devices primaril...
Conductive hydrogels are ideal for flexible sensors, but it is still a challenge to produce such hyd...
Hydrogels are polymer networks infiltrated with water. Natural hydrogels constitute the major compon...
Hydrogels are fascinating soft, stretchy materials that contain a high amount of water, up to 98% , ...
Wearable and implantable devices hold great promise to transform the society by making healthcare co...