International audienceThe magnetic properties of mesoporous cobalt ferrite films can be largely tuned by the application of an electric field using a liquid dielectric electrolyte. By applying a negative voltage, the cobalt ferrite becomes reduced, leading to an increase in saturation magnetization of 15% (M S) and reduction in coercivity (H C) between 5-28%, depending on the voltage applied (−10 V to −50 V). These changes are mainly non-volatile so after removal of −10 V M S remains 12% higher (and H C 5% smaller) than the pristine sample. All changes can then be reversed with a positive voltage to recover the initial properties even after the application of −50 V. Similar studies were done on analogous films without induced porosity and t...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
International audienceThe magnetic properties of mesoporous cobalt ferrite films can be largely tune...
The magnetic properties of mesoporous cobalt ferrite films can be largely tuned by the application o...
The magnetic properties of mesoporous cobalt ferrite films can be largely tuned by the application o...
International audienceThe magnetic properties of mesoporous cobalt ferrite films can be largely tune...
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 ...
Voltage control of magnetism via electric-field-driven ion migration (magneto-ionics) has generated ...
Controlling magnetism in situ and in a reversible manner using battery redox chemistry is a new conc...
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,...
Advances in nanotechnology require of robust methods to fabricate new types of nanostructured materi...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
International audienceThe magnetic properties of mesoporous cobalt ferrite films can be largely tune...
The magnetic properties of mesoporous cobalt ferrite films can be largely tuned by the application o...
The magnetic properties of mesoporous cobalt ferrite films can be largely tuned by the application o...
International audienceThe magnetic properties of mesoporous cobalt ferrite films can be largely tune...
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 ...
Voltage control of magnetism via electric-field-driven ion migration (magneto-ionics) has generated ...
Controlling magnetism in situ and in a reversible manner using battery redox chemistry is a new conc...
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,...
Advances in nanotechnology require of robust methods to fabricate new types of nanostructured materi...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...
Electric-field-controlled magnetism can boost energy efficiency in widespread applications. However,...