Over the years, researchers have made significant strides in the development of novel
flexible/stretchable and conductive materials, enabling the creation of cutting-edge�…

Traditional electronic devices inevitably undergo degradation over time due to deformation,
fatigue, or mechanical damage, ultimately resulting in device failure. To overcome this issue�…

Textile-based wearable electronics have attracted intensive research interest due to their
excellent flexibility and breathability inherent in the unique three-dimensional porous�…

Recently, the advantages of electronic textiles (e-textiles) for electronic skin have attracted
great attention. As epidermal electronic products, they need to possess characteristics such�…

Noncontact humidity sensor overcomes the limitations of its contact sensing counterparts,
including mechanical wear and cross infection, which becomes a promising candidate in�…

Functionalized hydrogels integrating soft nature and electrical properties are of great
significance for the development of human–machine interfaces, smart wearable devices�…

Skin-attachable electronics have garnered considerable research attention in health
monitoring and artificial intelligence domains, whereas susceptibility to electromagnetic�…

Hydrogel is a promising material for wearable electronics due to its good mechanical
properties, electrical conductivity and body adaptability. However, subzero freezing and�…

Flexible wearable electronic sensors are regarded to facilitate revolutionary changes in
human's daily life for their great promise in multifunctional artificial electronic skins�…

The fabrication of carbon aerogels with ultralow density, high electrical conductivity, and
ultraelasticity still remains substantial challenges. This study utilizes electrospun polyimide�…