Forthcoming low-energy consumption oxide electronics rely on the deterministic control of
ferroelectric and multiferroic domain states at the nanoscale. In this review, we address the …

X-ray detection is critical for applications in medical diagnosis, industrial inspection, security
checks, scientific inquiry and space exploration. Recent advances in materials science …

The success of oxide electronics depends on the ability to design functional properties such
as ferroelectricity with atomic accuracy. However, despite tremendous advances in …

Films made of colloidal CsPbBr3 nanocrystals packed in isolated or densely-packed
superlattices display a remarkably high degree of structural coherence. The structural …

Abstract 2D conducting metal oxides offer unprecedented control of thin film electrostatics at
the nanoscale. A scalable, rapid, and low‐cost approach is presented to printing transparent …

We identify a transient enhancement of the depolarizing field, leading to an unexpected
quench of net polarization, during the growth of a prototypical metal-ferroelectric-metal …

Solid state compounds exhibiting multiple and coupled macroscopic orders, named
multiferroics, represent a challenge for both theoretical and experimental modern …

The way in which atoms bond to form a material—in particular the pattern of bond lengths
and angles—is the fundamental determinant of the properties of the resulting material …

The development of energy-efficient nanoelectronics based on ferroelectrics is hampered by
a notorious polarization loss in the ultrathin regime caused by the unscreened polar …

Ferroelectrics are characterized by domain structures as are other ferroics. At the nanoscale
though, ferroelectrics may exhibit non-trivial or exotic polarization configurations under …