CORDIS Project
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CHANSON aims to enhance the detection of molecular chirality using advanced semiconductor nanostructures. By improving chiral fluorescence and spatial resolution, this project seeks to enable the identification of individual chiral molecules, which is crucial for applications like detecting disease-related protein aggr…
Chirality plays a pivotal role in chemistry and medicine because most biological molecules have either right- or left-handed conformations.
Circular dichroism can distinguish the chirality of matter thanks to a small difference in absorption of light with opposite circular polarizations.
However, it is severely limited by low sensitivity and low spatial resolution due to weak chiral light-matter interaction.
As a result, using light, we cannot resolve the chirality of individual nanoscale object…
UNIVERSITEIT GENT
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Netherlands, Eindhoven
Type: University / higher education
Activity type: Higher or Secondary Education Establishments
SME: No
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