The continuous miniaturization of charge-based electronic devices and overcoming the
bottleneck of Moore's law have driven the rapid growth of spintronics, spintronics operates …

The B-site substituted perovskite oxides A 2 B′ B ″O 6 have in the recent decades gained
an increasing amount of interest due to their various interesting properties and possible …

The magnetic anisotropy energy of tetragonally distorted disordered alloys Fe 1− x Co x is
calculated by two different virtual crystal approximation methods and an averaged supercell …

In this article, different perovskite-structure related materials are reviewed, which could be
potential candidates for cathode materials in solid oxide fuel cells. Solid oxide fuel cells …

Complexity in strongly correlated oxides such as perovskite strictly dominates their
performance for oxygen reduction reaction (ORR). Precise control of the physical …

The efficiency of transition-metal oxide materials toward oxygen-related electrochemical
reactions is classically controlled by metal–oxygen hybridization. Recently, the unique …

Multiferroic magnetoelectrics are materials that are both ferromagnetic and ferroelectric in
the same phase. As a result, they have a spontaneous magnetization that can be switched …

Mixed-valence manganese oxides (R1-χAχ) MnO3 (R= rare-earth cation, A= alkali or
alkaline earth cation), with a structure similar to that of perovskite CaTiO3, exhibit a rich …

The fundamental physical properties of doped LaMnO 3, generically termed “manganites,”
and much of the underlying physics, were known more than 40 years ago. This article first …

Double perovskites are considered to be outstanding materials for encountering the energy
crises faced by the world community. This article comprehensively addresses the electronic …