Metal halide perovskite based materials have emerged over the past few decades as
remarkable solution‐processable optoelectronic materials with many intriguing properties …

An insight into the analogies, state‐of‐the‐art technologies, concepts, and prospects under
the umbrella of perovskite materials (both inorganic–organic hybrid halide perovskites and …

The ability of piezoelectric devices to convert mechanical energy to electrical energy and
vice versa has inspired remarkable growth in research on piezoelectric materials. However …

As particles carry quantified energy, photon radiation enables orbital transitions of energy
levels, leading to changes in the spin state of electrons. The resulting switchable structural …

Due to the potential applications in optoelectronic memories, optical control of ferroelectric
domain walls has emerged as an intriguing and important topic in modern solid‐state …

Abstract Domain switching is crucial for achieving desired functions in ferroic materials that
are used in various applications. Fast control of domains at sub‐nanosecond timescales …

Manipulation of ferroelectric polarization and associated domain is at the heart of
ferroelectric‐based applications. Polarization switching is typically achieved by a static or …

The ability to switch ferroics (ferro-, ferri-, antiferromagnets, ferroelectrics, multiferroics)
between two stable bit states is one of the keystones of modern data storage technology …

The rapid increase in CPU processing speeds has significantly advanced artificial
intelligence, yet it has also exacerbated the disparity in CPU utilization and data throughput …

Mimicking and replicating the function of biological synapses with engineered materials is a
challenge for the 21st century. The field of neuromorphic computing has recently seen …