Electrospun nanofibers have received considerable attention in the field of soft electronics
owing to their promising advantages and superior properties in flexibility and/or …

Fibrous membranes with asymmetric wettability have attracted great interest. Benefiting from
the inspiration of biological paradigms and the development of fabrication techniques, many …

High-performance electronic textile with outstanding strain sensing, electromagnetic
interference (EMI) shielding, and Joule heating performances are highly desirable for …

Developing a durable, lightweight, and robust aerogel with multifunctional characteristics is
greatly desirable but remains challenging these days. Herein, an environment-friendly and …

Wearable sensors made of flexible and stretchable hydrogels have garnered significant
attention. However, their use has been limited by poor mechanical performance, such as …

Solar desalination via interfacial evaporation is an effective, green and convenient method
to solve the shortage of fresh water. It remains challenging to develop high quality light …

Oil spill has now been a serious environmental issue, threatening the aquatic ecosystems
and even human living environment. It is still challenging to develop absorbents for efficient …

Electrospinning is one of the most accessed nanofabrication techniques during the last three
decades, attributed to its viability for the mass production of continuous nanofibers with …

With the development of wearable electronics, designing a strain sensor with high
sensitivity, stretchability, durability and environmental stability is necessary but remains …

The low thermal conductivity and liquid melt leakage of phase change materials are long‐
standing bottlenecks for efficient and safe thermal energy harvesting. Although high thermal …