Add to ORKGWe present a novel fluorescence lifetime imaging microscopy technique to measure absolute positions of fluorescent molecules within 100 nm above a metalized surface based on distance-dependent fluorescence lifetime modulations. We apply this technique to fluorescently labeled microtubules as optical probes with various unlabeled proteins attached. By measuring the fluorescence lifetimes, we obtain the position of the microtubules and therefore determine the geometrical size of the attached proteins with nanometer precision
We discuss here the principles of a novel optical method in which the scanning of a laser spot aroun...
Fluorescence microscopy is a non-invasive technique that allows high resolution imaging of cytoskele...
International audienceNanophotonics offers a promising range of applications spanning from the devel...
We present a novel fluorescence lifetime imaging microscopy technique to measure absolute positions ...
In the discussion of resolution in optical microscopy, axial precision has often come second to its ...
Fluorescence lifetime imaging (FLIM) is an effective noninvasive bioanalytical tool based on measuri...
Conventional fluorescence microscopy can be used to determine the positions of objects in space when...
Single-molecule localization microscopy is a powerful technique with vast potential to study light-m...
Light microscopy is a powerful tool for probing the conformations of molecular machines at the singl...
FRET-based methods are a special tool for detecting interactions between (bio)molecules and their im...
We combine interferometric detection of single gold nanoparticles, single molecule microscopy, and f...
Fluorescence Lifetime Imaging Microscopy (FLIM) is a powerful technique to investigate many biochemi...
A frequency domain fluorescence lifetime imaging microscope (FLIM) has been developed. A continuous ...
We present a novel technique of far-field localization nanoscopy combining spectral precision distan...
A new method of fluorescence microscopy for cell imaging has been developed that takes advantage of ...
We discuss here the principles of a novel optical method in which the scanning of a laser spot aroun...
Fluorescence microscopy is a non-invasive technique that allows high resolution imaging of cytoskele...
International audienceNanophotonics offers a promising range of applications spanning from the devel...
We present a novel fluorescence lifetime imaging microscopy technique to measure absolute positions ...
In the discussion of resolution in optical microscopy, axial precision has often come second to its ...
Fluorescence lifetime imaging (FLIM) is an effective noninvasive bioanalytical tool based on measuri...
Conventional fluorescence microscopy can be used to determine the positions of objects in space when...
Single-molecule localization microscopy is a powerful technique with vast potential to study light-m...
Light microscopy is a powerful tool for probing the conformations of molecular machines at the singl...
FRET-based methods are a special tool for detecting interactions between (bio)molecules and their im...
We combine interferometric detection of single gold nanoparticles, single molecule microscopy, and f...
Fluorescence Lifetime Imaging Microscopy (FLIM) is a powerful technique to investigate many biochemi...
A frequency domain fluorescence lifetime imaging microscope (FLIM) has been developed. A continuous ...
We present a novel technique of far-field localization nanoscopy combining spectral precision distan...
A new method of fluorescence microscopy for cell imaging has been developed that takes advantage of ...
We discuss here the principles of a novel optical method in which the scanning of a laser spot aroun...
Fluorescence microscopy is a non-invasive technique that allows high resolution imaging of cytoskele...
International audienceNanophotonics offers a promising range of applications spanning from the devel...