Effective manipulation of the magnetic properties of nanostructured metallic alloys, exhibiting intergrain porosity (i.e., channels) and conformally coated with insulating oxide nanolayers, with an electric field is demonstrated. Nanostructured Co-Pt films are grown by electrodeposition (ED) and subsequently coated with either AlOx or HfOx by atomic layer deposition (ALD) to promote magneto-ionic effects (i.e., voltage-driven ion migration) during electrolyte gating. Pronounced variations in coercivity (HC) and magnetic moment at saturation (mS) are found at room temperature after biasing the heterostructures. The application of a negative voltage results in a decrease of HC and an increase of mS, whereas the opposite trend is achieved for ...
The magneto-ionic effect is a promising method to control the magnetic properties electrically. Char...
The magneto-ionic effect is a promising method to control the magnetic properties electrically. Char...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Effective manipulation of the magnetic properties of nanostructured metallic alloys, exhibiting inte...
Effective manipulation of the magnetic properties of nanostructured metallic alloys, exhibiting inte...
Advances in nanotechnology require of robust methods to fabricate new types of nanostructured materi...
Voltage control of magnetism through electric field-induced oxygen motion (magneto-ionics) could rep...
Voltage control of magnetism through electric field-induced oxygen motion (magneto-ionics) could rep...
Advances in nanotechnology require of robust methods to fabricate new types of nanostructured materi...
Voltage control of magnetism via electric-field-driven ion migration (magneto-ionics) has generated ...
Voltage control of magnetism via electric-field-driven ion migration (magneto-ionics) has generated ...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Altres ajuts: French National Research Agency (ANR) grant agreement No ANR-15-CE24-0015-01.Voltage c...
Voltage control of magnetism via electric-field-driven ion migration (magneto-ionics) has generated ...
The magneto-ionic effect is a promising method to control the magnetic properties electrically. Char...
The magneto-ionic effect is a promising method to control the magnetic properties electrically. Char...
The magneto-ionic effect is a promising method to control the magnetic properties electrically. Char...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Effective manipulation of the magnetic properties of nanostructured metallic alloys, exhibiting inte...
Effective manipulation of the magnetic properties of nanostructured metallic alloys, exhibiting inte...
Advances in nanotechnology require of robust methods to fabricate new types of nanostructured materi...
Voltage control of magnetism through electric field-induced oxygen motion (magneto-ionics) could rep...
Voltage control of magnetism through electric field-induced oxygen motion (magneto-ionics) could rep...
Advances in nanotechnology require of robust methods to fabricate new types of nanostructured materi...
Voltage control of magnetism via electric-field-driven ion migration (magneto-ionics) has generated ...
Voltage control of magnetism via electric-field-driven ion migration (magneto-ionics) has generated ...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Altres ajuts: French National Research Agency (ANR) grant agreement No ANR-15-CE24-0015-01.Voltage c...
Voltage control of magnetism via electric-field-driven ion migration (magneto-ionics) has generated ...
The magneto-ionic effect is a promising method to control the magnetic properties electrically. Char...
The magneto-ionic effect is a promising method to control the magnetic properties electrically. Char...
The magneto-ionic effect is a promising method to control the magnetic properties electrically. Char...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...