Design elements extracted from biological ion channels guide the engineering of artificial
nanofluidic membranes for efficient ionic transport and spawn biomimetic devices with great …

Flexible electronics have attracted great attention with the enhanced flexibility of electronic
devices, which could be used as flexible sensors, flexible batteries, electronic skin, soft …

Highlights A self-grinding exfoliation strategy that depends on mutual shear friction between
flake graphite particles is successfully developed to prepare pristine graphene with largely …

Fast charging is considered to be a mainstream development area of rechargeable batteries
with the exploitation of electric vehicle markets and portable electronics. Nevertheless, the …

Polysaccharide nanofibrils of chitins or celluloses are emerging biobased building blocks for
sustainable, high-performance bioinspired nanocomposites fusing high stiffness, strength …

Graphene is the thinnest, strongest and most conductive material ever identified and the
best barrier materials known to date, making it the most ideal building blocks for fabricating …

Macro-assembled graphene-based films can been considered as a potential material for the
electromagnetic shielding (EMI) and thermal management in portable electronics. Here, a …

While nanomaterials possess impressive mechanical properties at the microscale level, their
macroscopic assemblies usually exhibit inferior properties due to ineffective stress transfer …

High-performance dielectric nanocomposites are promising candidates for thin-film dielectric
capacitors for high-power pulse devices. However, the existing nanocomposites suffer from …

Graphene has been extensively applied in metallic protection fields based on its
extraordinary barrier property, large specific surface area, superlubrication …