Thermally conductive polymer nanocomposites are enticing candidates for not only thermal
managements in electronics but also functional components in emerging thermal energy …

The urgent need for ultrahigh thermally conductive materials to keep up with the rapid
development of the electronics industry has led to the exploration of hexagonal boron nitride …

Flexible, breathable, and degradable pressure sensors with excellent sensing performance
are drawing tremendous attention for various practical applications in wearable artificial …

Recent advances in nanolithography, miniaturization, and material science, along with
developments in wearable electronics, are pushing the frontiers of sensor technology into …

Flexible pressure sensors are indispensable components in various applications such as
intelligent robots and wearable devices, whereas developing flexible pressure sensors with …

MXenes are an emerging class of 2D transition metal carbides and nitrides. They have been
widely used in flexible electronics owing to their excellent conductivity, mechanical flexibility …

The sensitivity and linearity are critical parameters that can preserve the high pressure‐
resolution across a wide range and simplify the signal processing process of flexible tactile …

Template methods are regarded as an important method for micro‐nano processing in the
active layer of flexible tactile sensors. These template methods use physical/chemical …

Flexible pressure sensors with excellent performance have broad application potential in
wearable devices, motion monitoring, and human–computer interaction. In this paper, a …

Piezoresistivity is an electromechanical effect characterized by the reversible change in the
electrical resistivity with strain. It is useful for electrical-resistance-based strain/stress …