Add to ORKGA method is presented for optically imaging the spatial distribution of semiconductor nanocrystals with nanometre spatial resolution. The semiconductor nanocrystals were first localised using various filtering and edge detection methods. Using their determined collective positions, a rendered superresolved image may be obtained
AbstractSuperresolution optical microscopy (nanoscopy) is of current interest in many biological fie...
Quantum dots are spherical nano-sized crystals. They can be made of nearly every semiconductor met-a...
Surface plasmons, the coupling of photons to charges at metal interfaces, are widely used to improve...
Here we present a multifunctional algorithm. Firstly a super-resolution method is presented for opti...
In microscopy, single fluorescence point sources can be localized with a precision several times gre...
Fluorescence imaging is routinely used to obtain information on the spatial organisation of proteins...
Blinking nanoscale emitters, typically single molecules, are employed in single-molecule localizatio...
Single-Molecule Localization Microscopy is an optical imaging paradigm which provides computational ...
The work concerns the feasibility of 3D optical diagnostic of porous media with subdifraction spatia...
We demonstrate a spectroscopic imaging based super-resolution approach by separating the overlapping...
A new method for in vitro and possibly in vivo ultrahigh-resolution colocalization and distance meas...
We investigate the modification of photoluminescence (PL) from single semiconductor nanocrystal quan...
A new method for in vitro and possibly in vivo ultrahigh-resolution colocalization and distance mea...
We introduce a new, highly sensitive, and simple heterodyne optical method for imaging individual no...
Quantum dots are promising candidates for single molecule imaging due to their exceptional photophys...
AbstractSuperresolution optical microscopy (nanoscopy) is of current interest in many biological fie...
Quantum dots are spherical nano-sized crystals. They can be made of nearly every semiconductor met-a...
Surface plasmons, the coupling of photons to charges at metal interfaces, are widely used to improve...
Here we present a multifunctional algorithm. Firstly a super-resolution method is presented for opti...
In microscopy, single fluorescence point sources can be localized with a precision several times gre...
Fluorescence imaging is routinely used to obtain information on the spatial organisation of proteins...
Blinking nanoscale emitters, typically single molecules, are employed in single-molecule localizatio...
Single-Molecule Localization Microscopy is an optical imaging paradigm which provides computational ...
The work concerns the feasibility of 3D optical diagnostic of porous media with subdifraction spatia...
We demonstrate a spectroscopic imaging based super-resolution approach by separating the overlapping...
A new method for in vitro and possibly in vivo ultrahigh-resolution colocalization and distance meas...
We investigate the modification of photoluminescence (PL) from single semiconductor nanocrystal quan...
A new method for in vitro and possibly in vivo ultrahigh-resolution colocalization and distance mea...
We introduce a new, highly sensitive, and simple heterodyne optical method for imaging individual no...
Quantum dots are promising candidates for single molecule imaging due to their exceptional photophys...
AbstractSuperresolution optical microscopy (nanoscopy) is of current interest in many biological fie...
Quantum dots are spherical nano-sized crystals. They can be made of nearly every semiconductor met-a...
Surface plasmons, the coupling of photons to charges at metal interfaces, are widely used to improve...