Our demand for ubiquitous and reliable gas detection is spurring the design of intelligent
and enabling gas sensors for the next-generation Internet of Things and Artificial …

The unique properties and atomic thickness of two-dimensional (2D) materials enable
smaller and better nanoelectromechanical sensors with novel functionalities. During the last …

Porous graphene and other atomically thin 2D materials are regarded as highly promising
membrane materials for high‐performance gas separations due to their atomic thickness …

As the application of graphene nanomaterials gets increasingly attractive in the field of
tissue engineering and regenerative medicine, the long-term evaluation is necessary and …

Motion is a key characteristic of every form of life. Even at the microscale, it has been
reported that colonies of bacteria can generate nanomotion on mechanical cantilevers, but …

The dynamics of suspended two-dimensional (2D) materials has received increasing
attention during the last decade, yielding new techniques to study and interpret the physics …

Microphones exploit the motion of suspended membranes to detect sound waves. Since the
microphone performance can be improved by reducing the thickness and mass of its …

Suspended membranes of monatomic graphene exhibit great potential for applications in
electronic and nanoelectromechanical devices. In this work, a “hot and dry” transfer process …

Gas sensors are essential for ensuring public safety and improving quality of life. Room-
temperature gas sensors are notable for their potential economic benefits and low energy …

The emergence of graphene and other two-dimensional materials overcomes the limitation
in the characteristic size of silicon-based micro-resonators and paved the way in the …