Add to ORKGWe demonstrate far-field optical imaging at the nanoscale with unlabeled samples. Subdiffraction resolution images of autofluorescent samples are obtained by depleting the ground state of natural fluorophores by transferring them to a metastable dark state and simultaneously localizing those fluorophores that are transiently returning. Our approach is based on the insight that nanoscopy methods relying on stochastic single-molecule switching require only a single fluorescence on-off cycle to yield an image, a condition fulfilled by various biomolecules. The method is exemplified by recording label-free nanoscopy images of thylakoid membranes of spinach chloroplasts
AbstractWe demonstrate two-color fluorescence microscopy with nanoscale spatial resolution by applyi...
Progress in the emerging areas of science and technology, such as bio- and nano-technologies, depend...
Super-resolution optical microscopy is providing a new means by which to view as yet unseen details ...
We demonstrate far-field optical imaging at the nanoscale with unlabeled samples. Subdiffraction res...
ABSTRACT We demonstrate far-field optical imaging at the nanoscale with unlabeled samples. Subdiffra...
Abstract The resolution of fluorescence microscopy had traditionally been lim-ited to ~200–300 nm du...
ABSTRACT We demonstrate nanoscale resolution in far-field fluorescence microscopy using reversible p...
By combining the photoswitching and localization of individual fluorophores with spectroscopy on the...
We demonstrate nanoscale resolution in far-field fluorescence microscopy using reversible photoswitc...
By combining the photoswitching and localization of individual fluorophores with spectroscopy on the...
AbstractWe demonstrate nanoscale resolution in far-field fluorescence microscopy using reversible ph...
We present a novel technique of far-field localization nanoscopy combining spectral precision distan...
Throughout the twentieth century, it was widely accepted that a light microscope relying on propagat...
We demonstrate two-color fluorescence microscopy with nanoscale spatial resolution by applying stimu...
Super-resolution optical microscopy is opening a new window to unveil the unseen details on the nano...
AbstractWe demonstrate two-color fluorescence microscopy with nanoscale spatial resolution by applyi...
Progress in the emerging areas of science and technology, such as bio- and nano-technologies, depend...
Super-resolution optical microscopy is providing a new means by which to view as yet unseen details ...
We demonstrate far-field optical imaging at the nanoscale with unlabeled samples. Subdiffraction res...
ABSTRACT We demonstrate far-field optical imaging at the nanoscale with unlabeled samples. Subdiffra...
Abstract The resolution of fluorescence microscopy had traditionally been lim-ited to ~200–300 nm du...
ABSTRACT We demonstrate nanoscale resolution in far-field fluorescence microscopy using reversible p...
By combining the photoswitching and localization of individual fluorophores with spectroscopy on the...
We demonstrate nanoscale resolution in far-field fluorescence microscopy using reversible photoswitc...
By combining the photoswitching and localization of individual fluorophores with spectroscopy on the...
AbstractWe demonstrate nanoscale resolution in far-field fluorescence microscopy using reversible ph...
We present a novel technique of far-field localization nanoscopy combining spectral precision distan...
Throughout the twentieth century, it was widely accepted that a light microscope relying on propagat...
We demonstrate two-color fluorescence microscopy with nanoscale spatial resolution by applying stimu...
Super-resolution optical microscopy is opening a new window to unveil the unseen details on the nano...
AbstractWe demonstrate two-color fluorescence microscopy with nanoscale spatial resolution by applyi...
Progress in the emerging areas of science and technology, such as bio- and nano-technologies, depend...
Super-resolution optical microscopy is providing a new means by which to view as yet unseen details ...