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MAGNUS explores the development of magnetoelectric composites that respond to magnetic and electric fields for applications in bone tissue engineering and magnetic recording. The project focuses on innovative material growth techniques to enhance functionality.
Magnetoelectric (ME) composites have the potential to revolutionize current nanotechnologies due to their ability to simultaneously respond to external magnetic and electric stimuli.
However, archetypical ME materials prepared on rigid supports show either small effects due to the clamping with the substrate (e.g., Si wafers) or require of extremely high voltages (in case ferroelectric –FE– substrates are employed).
To overcome these drawbacks, MAGNUS proposes a comprehensive research program bu…
UNIVERSITAT AUTONOMA DE BARCELONA
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