Review on the growth, properties and applications of self-assembled oxide–metal vertically aligned nanocomposite thin films—current and future perspectives
Self-assembled oxide–metal nanocomposite thin films have aroused great research interest
owing to their wide range of functionalities, including metamaterials with plasmonic and …
owing to their wide range of functionalities, including metamaterials with plasmonic and …
Correlation between structural, magnetic and ferroelectric properties of Fe-doped (Ba-Ca) TiO3 lead-free piezoelectric
The effect of iron (Fe) doping modification on the structure and properties of Ba 0.92 Ca 0.08
TiO 3 (BCT8) lead-free ferroelectrics is investigated in detail. Intrinsic BaTiO 3 (BT) and Ba …
TiO 3 (BCT8) lead-free ferroelectrics is investigated in detail. Intrinsic BaTiO 3 (BT) and Ba …
[HTML][HTML] Comprehensive Characterization of Bi1.34Fe0.66Nb1.34O6.35 Ceramics: Structural, Morphological, Electrical, and Magnetic Properties
Recent research in solid-state physics and materials engineering focuses on the
development of new dielectric materials, with bismuth-based pyrochlores being already …
development of new dielectric materials, with bismuth-based pyrochlores being already …
Multi-Functionality of Spintronic Materials
KC Verma, RK Kotnala, N Goyal - Nanoelectronics, 2019 - Elsevier
Multiferroics and diluted magnetic semiconductors (DMSs) might hold the future for the
ultimate spintronic devices. In the present chapter, we review the spintronic multiferroic …
ultimate spintronic devices. In the present chapter, we review the spintronic multiferroic …
Magnetoelectricity in Fe/PbTiO3/Fe superlattices
J Lee - Current Applied Physics, 2017 - Elsevier
Using the first-principles density functional calculations, we have investigated the
magnetoelectric coupling at the Fe/PbTiO 3/Fe superlattices by varying the number of …
magnetoelectric coupling at the Fe/PbTiO 3/Fe superlattices by varying the number of …
Prediction of large magnetoelectric coupling in Fe 4 N/BaTiO 3 and MnFe 3 N/BaTiO 3 junctions from a first-principles study
L Yu, G Gao, G Ding, Y Duan, Y Liu, Y He, K Yao - RSC Advances, 2016 - pubs.rsc.org
The magnetoelectric (ME) effects of Fe4N/BaTiO3 and MnFe3N/BaTiO3 junctions are
investigated using first-principles calculations. Compared with the very weak ME coupling …
investigated using first-principles calculations. Compared with the very weak ME coupling …
Enhanced strain-induced magnetoelectric coupling in polarization-free Fe/BaTiO 3 heterostructures
The search for magnetoelectric materials typically revolves around the struggle to make
magnetic and ferroelectric orders simultaneously coexist in the same material, using either …
magnetic and ferroelectric orders simultaneously coexist in the same material, using either …
Electric Field Induced Room Temperature Null to High Spin State Switching: A Computational Prediction
BaTiO3 is a well‐known ferroelectric material, with an electric field‐induced coupled
electrical/structural transition from a cubic to a tetragonal lattice above room temperature …
electrical/structural transition from a cubic to a tetragonal lattice above room temperature …
Changing the magnetic states of an Fe/BaTiO 3 interface through crystal field effects controlled by strain
The search for better and inexpensive magnetoelectric materials is now commonplace in
solid state physics. Intense coupling between technologically viable electric and magnetic …
solid state physics. Intense coupling between technologically viable electric and magnetic …
Constrained titanohematite formation at BTO/Fe interfaces deposited by RF-sputtering
The usage of heterostructures of ferromagnetic and ferroelectric materials, as a means of
achieving magnetoelectric multiferroic coupling, is a widely used approach which has been …
achieving magnetoelectric multiferroic coupling, is a widely used approach which has been …