Smart materials types, properties and applications: A review
Future developments of smart materials for domains such as self-sustainable wireless
sensor networks, self-tuned vibration energy harvesting devices, seismic applications etc. is …
sensor networks, self-tuned vibration energy harvesting devices, seismic applications etc. is …
Performance of smart materials-based instrumentation for force measurements in biomedical applications: A methodological review
The introduction of smart materials will become increasingly relevant as biomedical
technologies progress. Smart materials sense and respond to external stimuli (eg, chemical …
technologies progress. Smart materials sense and respond to external stimuli (eg, chemical …
Effect of High-Anisotropic Co2+ Substitution for Ni2+ on the Structural, Magnetic, and Magnetostrictive Properties of NiFe2O4: Implications for Sensor Applications
This work reports on the effect of substituting a low-anisotropic and low-magnetic cation
(Ni2+, 2μB) by a high-anisotropic and high-magnetic cation (Co2+, 3μB) on the crystal …
(Ni2+, 2μB) by a high-anisotropic and high-magnetic cation (Co2+, 3μB) on the crystal …
Effect of Dy3+ and Tb3+ Rare-Earth Cation Co-Substitution on the Structure, Magnetic, and Magnetostrictive Properties of Ni-Co-Ferrites
SK Gaikwad, SP Kharat, K Haritha, YD Kolekar… - Inorganic …, 2023 - ACS Publications
The design and development of electromagnetic and magnetoelectric materials with
enhanced properties and performance are desirable for numerous technologies, which are …
enhanced properties and performance are desirable for numerous technologies, which are …
Impact of Zn doping on the dielectric and magnetic properties of CoFe2O4 nanoparticles
Owing to its unique magnetic, dielectric, electrical and catalytic properties, ferrite
nanostructure materials gain vital importance in high frequency, memory, imaging, sensor …
nanostructure materials gain vital importance in high frequency, memory, imaging, sensor …
Effect of dopant concentration and annealing temperature on electric and magnetic properties of lanthanum substituted CoFe2O4 nanoparticles for potential use in 5G …
Dielectric-magnetic nanoparticles are the key component used in high-frequency devices
employed in the 5G telecommunication system. Lanthanum-doped cobalt ferrites have …
employed in the 5G telecommunication system. Lanthanum-doped cobalt ferrites have …
Correlation between Cation Distribution and Magnetic and Dielectric Properties of Dy3+-Substituted Fe-Rich Cobalt Ferrite
Designing electromagnetic materials, particularly those based on transition-metal-containing
spinel ferrites, with a controlled structure, phase, and chemistry at the nanoscale dimensions …
spinel ferrites, with a controlled structure, phase, and chemistry at the nanoscale dimensions …
Structural, magnetic, magnetostrictive and optical properties of Mn and Cu codoped cobalt ferrite
Magnetostrictive materials have been a sought-after multifunctional material due to their
propensity to be used in applications such as sensors, actuators, transducers, and other …
propensity to be used in applications such as sensors, actuators, transducers, and other …
Effect of Mn and Zn binary Co-substitution on structure and magnetic properties of cobalt ferrites
M Liu, J Li, J Wang, H Yi, X Bao, X Gao - Materials Science and …, 2023 - Elsevier
Mn-Zn binary co-substituted cobalt ferrite (Co 1-x (MnZn) x Fe 2 O 4 (0≤ x≤ 0.4)) was
synthesized by conventionally compacting and magnetic field assisted injection molding …
synthesized by conventionally compacting and magnetic field assisted injection molding …
Evolution of the Magnetic and Structural Properties with the Chemical Composition in Oleate-Capped MnxCo1–xFe2O4 Nanoparticles
Understanding the complex link among composition, microstructure, and magnetic
properties paves the way to the rational design of well-defined magnetic materials. In this …
properties paves the way to the rational design of well-defined magnetic materials. In this …