Progress in Fe3O4-centered spintronic systems: Development, architecture, and features
Spintronics, or spin-based electronics, is a rapidly growing multidisciplinary research area in
the development of physical mechanisms based on the spin as well as the charge of an …
the development of physical mechanisms based on the spin as well as the charge of an …
Boosting the oxygen evolution reaction activity of a perovskite through introducing multi-element synergy and building an ordered structure
If different active sites in a catalyst have optimal binding to different reaction intermediates
and short reaction paths among them, they may work cooperatively to enhance the oxygen …
and short reaction paths among them, they may work cooperatively to enhance the oxygen …
Spin-dependent optical charge transfer in magnetite from transmitting optical magnetic circular dichroism
J Chen, HS Hsu, YH Huang, DJ Huang - Physical Review B, 2018 - APS
In this study, we demonstrate that optical magnetic circular dichroism (OMCD) in Faraday
geometry can serve as an effective means of characterizing the valence electronic structure …
geometry can serve as an effective means of characterizing the valence electronic structure …
Insights into Reversible Sodium Intercalation in a Novel Sodium‐Deficient NASICON‐Type Structure:Na3.40□0.60Co0.5Fe0.5V(PO4)3
The rational design of novel high‐performance cathode materials for sodium‐ion batteries is
a challenge for the development of the renewable energy sector. Here, a new sodium …
a challenge for the development of the renewable energy sector. Here, a new sodium …
Mo‐Incorporated Magnetite Fe3O4 Featuring Cationic Vacancies Enabling Fast Lithium Intercalation for Batteries
Transition metal oxides (TMOs) as high‐capacity electrodes have several drawbacks owing
to their inherent poor electronic conductivity and structural instability during the multi …
to their inherent poor electronic conductivity and structural instability during the multi …
Observation of novel charge ordering and spin reorientation in perovskite oxide PbFeO3
Abstract Pb M O3 (M= 3 d transition metals) family shows systematic variations in charge
distribution and intriguing physical properties due to its delicate energy balance between Pb …
distribution and intriguing physical properties due to its delicate energy balance between Pb …
Fe3O4 thin films: controlling and manipulating an elusive quantum material
X Liu, CF Chang, AD Rata, AC Komarek… - npj Quantum …, 2016 - nature.com
Abstract Fe 3 O 4 (magnetite) is one of the most elusive quantum materials and at the same
time one of the most studied transition metal oxide materials for thin-film applications. The …
time one of the most studied transition metal oxide materials for thin-film applications. The …
Controlling the Magnetic Properties of LaMnO3/SrTiO3 Heterostructures by Stoichiometry and Electronic Reconstruction: Atomic‐Scale Evidence
Interface‐driven magnetic effects and phenomena associated with spin–orbit coupling and
intrinsic symmetry breaking are of importance for fundamental physics and device …
intrinsic symmetry breaking are of importance for fundamental physics and device …
Electronic structure and magnetic properties of magnetically dead layers in epitaxial films studied by x-ray magnetic circular dichroism
Epitaxial CoF e 2 O 4/A l 2 O 3 bilayers are expected to be highly efficient spin injectors into
Si owing to the spin filter effect of CoF e 2 O 4. To exploit the full potential of this system …
Si owing to the spin filter effect of CoF e 2 O 4. To exploit the full potential of this system …
Topological insulator interfaced with ferromagnetic insulators: thin films on magnetite and iron garnets
VM Pereira, SG Altendorf, CE Liu, SC Liao… - Physical Review …, 2020 - APS
We report our study about the growth and characterization of B i 2 T e 3 thin films on top of Y
3 F e 5 O 12 (111), T m 3 F e 5 O 12 (111), F e 3 O 4 (111), and F e 3 O 4 (100) single-crystal …
3 F e 5 O 12 (111), T m 3 F e 5 O 12 (111), F e 3 O 4 (111), and F e 3 O 4 (100) single-crystal …