Electromagnetic interference (EMI) shielding is critical in electronic applications. However,
the currently available EMI shielding materials are restricted in customizability and …

Modern human civilization deeply relies on the rapid advancement of cutting‐edge
electronic systems that have revolutionized communication, education, aviation, and …

Transition metal carbides/nitrides (MXenes) demonstrate a massive potential in constructing
lightweight, multifunctional wearable electromagnetic interference (EMI) shields for …

The rapid, energy‐efficient, scalable preparation of high‐strength, flexible, multifunctional
nanostructured aerogels is highly desired yet challenging. Here, an ambient‐pressure‐dried …

Abstract Ambient‐pressure‐dried (APD) preparation of transition metal carbide/nitrides
(MXene) aerogels is highly desirable yet remains highly challenging. Here, ultrathin, high …

Energy‐efficient building materials are eye‐catching for reducing indoor energy
consumption via eliminating electromagnetic interference and pollution, controlling the …

Electromagnetic interference shielding (EMI SE) modules are the core component of modern
electronics. However, the traditional metal-based SE modules always take up indispensable …

Develo** high-performance and functional hydrogels that mimic biological materials in
nature is promising yet remains highly challenging. Through a facile, scalable unidirectional …

Highlights Convincing candidates of flexible (stretchable/compressible) electromagnetic
interference shielding nanocomposites are discussed in detail from the views of fabrication …

Transition metal carbides/nitrides (MXenes) show great potential for preparing wearable,
flexible multifunctional e‐textiles due to the exceptional electrical and mechanical properties …