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This research aims to enhance fluorescence imaging technology for live-cell applications by achieving high optical resolution and temporal resolution without harmful conditions. It combines computational and chip-based optical techniques to study the transport of viruses in liver cells.
Research in biology is both empowered and limited by the fluorescence imaging technology, which has witnessed a huge leap in resolution limits through super-resolved optical microscopy or also referred as optical nanoscopy.
Over the last few decades, numerous optical nanoscopy techniques have been reported for either spatial or temporal resolution enhancement.
Nevertheless, the present state-of-the-art of optical nanoscopy lacks to provide high optical resolution (50 nm or better) at high tempor…
UNIVERSITETET I TROMSOE - NORGES ARKTISKE UNIVERSITET
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