The coupled interactions among the fundamental carriers of charge, heat, and
electromagnetic fields at interfaces and boundaries give rise to energetic processes that …

Unexpected, yet useful functionalities emerge when two or more materials merge
coherently. Artificial oxide superlattices realize atomic and crystal structures that are not …

Electrostriction is a property of dielectric materials whereby an applied electric field induces
a mechanical deformation proportional to the square of that field. The magnitude of the effect …

Grain boundaries (GBs) are a prolific microstructural feature that dominates the functionality
of a wide class of materials. The functionality at a GB results from the unique atomic …

Many materials exhibit phase transitions at which both the electronic properties and the
crystal structure change. Some authors have argued that the change in electronic order is …

As the length scales of materials decrease, the heterogeneities associated with interfaces
become almost as important as the surrounding materials. This has led to extensive studies …

Preparation of holey, single‐crystal, 2D nanomaterials containing in‐plane nanosized pores
is very appealing for the environment and energy‐related applications. Herein, an in situ …

Interface quantum materials have yielded a plethora of previously unknown phenomena,
including unconventional superconductivity, topological phases, and possible Majorana …

Metal–insulator transition (MIT) compounds are materials that may exhibit metallic or
insulating behavior, depending on the physical conditions, and are of immense fundamental …

We present an integrated procedure for the synthesis of infinite-layer nickelates using
molecular-beam epitaxy with gas-phase reduction by atomic hydrogen. We first discuss …