Emerging functionalities in two-dimensional materials, such as ferromagnetism,
superconductivity and ferroelectricity, open new avenues for promising nanoelectronic …

We get insight into the atomic-molecular evolution of crystal engineering on BiFeO 3 (BFO).
Doping a small amount of Co ions into BFO enables us to introduce more oxygen vacancies …

Epitaxial growth is of significant importance over the past decades, given it has been the key
process of modern technology for delivering high-quality thin films. For conventional …

Piezoresponse force microscopy (PFM) uses a cantilever arm to track the electromechanical
motion of the electric dipole moment to visualize the ferroelectric domain structure, which …

BiFeO3 is a rare single‐phase multiferroic which shows coupled ferroelectricity,
ferroelasticity and antiferromagnetism at room temperature. Many fantastic properties of …

BiFeO3, known as the “holy grail of all multiferroics”, provides an appealing platform for
exploration of multifield coupling physics and design of functional devices. Many fantastic …

We present a comprehensive study of the physical properties of epitaxial cobalt-doped
BiFeO 3 films∼ 50 nm thick grown on (001) LaAlO 3 substrates. X-ray diffraction and …

The possibility of affecting the magnetic properties of a material by dielectric means, and
vice versa, remains an attractive perspective for modern electronics and spintronics. Here …

Abstract Bi 0.80 Ba 0.20 Fe 1-x Ti x O 3 (0≤ x≤ 0.10) samples are prepared using solid
state reaction technique. Bi 3+ site is replaced with 20% Ba 2+ which induced structural …

Epitaxially strained BiFeO3 thin films with coexisting tetragonal‐and rhombohedral‐like
phases exhibit a range of intriguing functional properties, often strongly related to the unique …