Atomic-scale structure characteristics of antiferroelectric silver niobate

摘要

Antiferroelectric materials are a kind of functional material, which are widely used in electrostatic energy storage, energy conversion devices, and magnetoelectric coupling devices. As a typical lead-free antiferroelectric material, silver niobate has attracted much attention in recent years due to its excellent performance in energy storage. In this work, using the spherical aberration corrected electron microscopy technique, atomic-resolution images of pure silver niobate were obtained, which revealed typical microscopic physical characteristics of such complex antiferroelectric oxides: in such materials, all cations deviate from the average positions of the main lattice, and the displacement of each kind of cation varies periodically in two opposite directions, resulting in periodic wavy (1-10)(c) atomic planes, and the period of cation displacement is 15.6 angstrom. At the same time, the 90 degrees antiferroelectric domain boundary and the antiphase domain wall defects are further revealed and analyzed. Published by AIP Publishing.