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 …

The piezoresistive effect has been a dominant mechanical sensing principle that has been
widely employed in a range of sensing applications. This transducing concept still receives …

Wearable pressure sensors, which can rapidly respond to small pressure variations, play a
crucial role in health monitoring system, human-machine interfaces, robotic technologies …

Resistance strain force sensors have been applied to monitor the strains in various parts
and structures for industrial use. Here, we review the working principles, structural forms …

Microelectromechanical system (MEMS) pressure sensors based on silicon are widely used
and offer the benefits of miniaturization and high precision. However, they cannot easily …

Silicon (Si), as the second most abundant element on Earth, has been a central platform of
modern electronics owing to its low mass density and unique semiconductor properties …

Semiconductor nanowires are widely considered as the building blocks that revolutionized
many areas of nanosciences and nanotechnologies. The unique features in nanowires …

Wearable and implantable bioelectronics have experienced remarkable progress over the
last decades. Bioelectronic devices provide seamless integration between electronics and …

Improving and optimizing the processes for transfer printing have the potential to further
enhance capabilities in heterogeneous integration of various sensing materials on …

With advancements in artificial intelligence, wearable motion recognition systems based on
flexible nanomaterial sensors exhibit excellent potential for harmonious human–machine …