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Strain-graded MAGnetoelectric composites based on NanoporoUS materials for information and biomedical technologies
Sort Viñas, Jordi
(PI)
Nicolenco ., Aliona
(Beneficiari/a)
Departament de Física
Informació general
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Producció científica
(1)
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Keyphrases
Biomedical Technology
100%
Nanoporous
100%
Magnetoelectric Composite
100%
Information Technology
100%
Memory Application
50%
Voltage Control of Magnetism
50%
Nanopillars
50%
Cobalt Ferrite
50%
Neuromorphic Applications
50%
Cyclable
50%
Magneto-ionics
50%
CoFe2O4
37%
Mechanical Strain
33%
Information Application
33%
Biomedical Applications
33%
Magnetic Recording Media
33%
Electric Field (E-field)
33%
Magnetic Field
33%
Electric Stimulus
33%
Bone Tissue Engineering
33%
Functionally Graded
33%
Material Architecture
33%
Materials Science
33%
Magnetic Stimulus
33%
Nanotechnology
33%
Non-volatile
25%
Neuromorphic Computing
25%
Nanopillar Array
12%
Nanopillar Structure
12%
High-density Storage
12%
Memory Computing
12%
Response Time
12%
Epitaxial
12%
Magnetic Memory
12%
Oxygen Content
12%
Synaptic Behavior
12%
Cyclability
12%
Magnetic Moment
12%
Ionic Response
12%
Computing Applications
12%
Ionic System
12%
Magnetic Materials
12%
Applied Voltage
12%
Magnetic States
12%
Coercivity
12%
Energy Efficient
12%
Liquid Electrolyte
12%
Synapse
12%
Voltage-driven
12%
Ion Migration
12%
Order of Magnitude
12%
Magnetic Switching
12%
Analog Computing
12%
Characterization Techniques
12%
Engineering
Biomedical Application
100%
Magnetic Recording
100%
Magnetic Field
100%
Recording Medium
100%
Bone Tissue Engineering
100%
Mechanical Strain
100%
Electric Field
100%
Material Science
Nanoporous Material
100%
Magnetic Recording Medium
100%
Magnetism
50%
Neuromorphic Computing
50%
Cobalt
50%
Film
25%
Density
25%
Magnetic Memory
25%
Magnetic Material
25%