CORDIS Project
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This project enhances Magnetic Resonance Force Microscopy to detect surface spins more effectively, focusing on radicals significant in renewable energy applications like fuel cells and solar cells. The goal is to explore the commercialization potential of a simplified version of this advanced instrument.
Within our ERC Starting Grant “Taking Force Microscopy into the Third Dimension”, we developed a major improvement to a technique based on Magnetic Resonance.The technique is called Magnetic Resonance Force Microscopy, and measures the
interaction of a rotating spin (a magnetic moment) in the field gradient of a magnetic Force Microscopy tip.The research motivation here is that radicals, which play an important role in surface chemistry, for example in renewable energy,
such as fuel cells, batte…
UNIVERSITEIT LEIDEN
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