Low-dimensional materials (LDMs), due to exotic mechanical, optical and electrical
properties enhanced by ultrahigh surface-to-volume ratio and quantum confinements, have …

Tunable topological insulators (TIs) with active tunability of frequency or path and better
adaptability to the dynamic environment than conventional TIs have attracted great interest …

The low mass density and high mechanical strength of graphene make it an attractive
candidate for suspended-membrane energy transducers. Typically, the membrane size …

Arrays of coupled nanoelectromechanical resonators are a promising foundation for
implementing large-scale network applications, such as mechanical-based information …

Neuromorphic computing has emphasized the need for memristors with non-volatile,
multiple conductance levels. This paper demonstrates the potential of hexagonal boron …

At present, functionalities, miniaturization, and tunability are useful directions in the
development of practical device applications for topological photonics and phononics …

Slowing down, stop**, and reversing a signal is a core functionality for information
processing. Here, we show that this functionality can be realized by tuning the dispersion of …

The features of electrostatic actuation are experimentally studied in nanomechanical
resonators based on AlGaAs/GaAs heterostructures with a two-dimensional electron gas …

Nanoelectromechanical (NEMS) resonator networks have drawn increasing interest due to
their potential applications in emergent behavior, sensing, phononics, and mechanical …

Resonator networks are ubiquitous in natural and engineered systems, such as solid-state
materials, electrical circuits, quantum processors, and even neural tissue. To understand …