Developing various nanosensors with superior performance for accurate and sensitive
detection of some physical signals is essential for advances in electronic systems. Zinc …

With the rapid development of artificial intelligence, the applications of flexible piezoelectric
sensors in health monitoring and human–machine interaction have attracted increasing …

We report the fabrication of individually addressable, high-density, vertical zinc oxide (ZnO)
nanotube pressure sensor arrays. High-sensitivity and flexible piezoelectric sensors were …

A facile and novel technique for the fabrication of pressure sensors is reported based on the
hybridization of one-dimensional nanomaterials and two-dimensional graphene film. In …

To promote the application of flexible strain sensors in the fields of athletics feedback, health
monitoring, human–machine interface, and robotics, the design strategies of various strain …

A tremendous amount of research is currently focused on two-dimensional (2D) magnetic
semiconductors because of their remarkable physical properties and diverse applications …

Compliant amplifying mechanisms are used widely in high-precision instruments driven by
piezoelectric actuators, and the dynamic and static characteristics of these mechanisms are …

Piezoelectric and triboelectric effects are of growing interest for facilitating high-sensitivity
and self-powered tactile sensor applications. The working principles of piezoelectric and …

The authors report the fabrication of highly sensitive, rapidly responding flexible force
sensors using ZnO/ZnMgO coaxial nanotubes grown on graphene layers and their …

The piezoelectric sensor-actuator plays an important role in micro high-precision dynamic
systems such as medical robots and micro grippers. These mechanisms need high …