CORDIS Project
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This project aims to develop a groundbreaking imaging technology that enables intramolecular optical microscopy with sub-nanometer resolution in single biomolecules. By combining advanced techniques, the project seeks to enhance fluorescence microscopy, allowing researchers to observe protein structures and dynamics at…
Fluorescence microscopy has witnessed a true resolution revolution in the past decades.
The invention of methods circumventing the classical diffraction limit of ≈200 nm has allowed researchers – for the first time – to reach sub-diffraction resolution with optical fluorescence microscopy.
With these so-called super-resolution techniques, processes within cells can be observed at thus far unprecedented spatial resolutions.
However, while incumbent super-resolution approaches enable researchers t…
MAX-PLANCK-GESELLSCHAFT ZUR FORDERUNG DER WISSENSCHAFTEN EV
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