It is predicted that the conventional von Neumann computing architecture cannot meet the
demands of future data‐intensive computing applications due to the bottleneck between the …

Two-dimensional (2D) layered metal chalcogenides (MXs) have significant potential for use
in flexible transistors, optoelectronics, sensing and memory devices beyond the state-of-the …

The pervasiveness of information technologies is generating an impressive amount of data,
which need to be accessed very quickly. Nonvolatile memories (NVMs) are making inroads …

Ferroelectric polymers are the most promising electroactive materials with outstanding
properties that can be integrated into a variety of flexible electronic devices. Their …

A broad range of dynamic metasurfaces has been developed for manipulating the intensity,
phase and wavefront of electromagnetic radiation from microwaves to optical frequencies …

Metasurfaces, planer artificial materials composed of subwavelength unit cells, have shown
superior abilities to manipulate the wavefronts of electromagnetic waves. In the last few …

If a three-dimensional physical electronic system emulating synapse networks could be built,
that would be a significant step toward neuromorphic computing. However, the fabrication …

Metasurfaces provide a novel strategy to manipulate electromagnetic (EM) waves by
controlling the local phase of subwavelength artificial structures within the wavelength scale …

The strikingly contrasting optical properties of various phases of chalcogenide phase
change materials (PCM) has recently led to the development of novel photonic devices such …

Piezoelectric and ferroelectric materials have shown great potential for control of the optical
process in emerging materials. There are three ways for them to impact on the optical …