Add to ORKGMost recent advances in fluorescence microscopy have focused on achieving spatial resolutions below the diffraction limit. However, the inherent capability of fluorescence microscopy to non-invasively resolve different biochemical or physical environments in biological samples has not yet been formally described, because an adequate and general theoretical framework is lacking. Here, we develop a mathematical characterization of the biochemical resolution in fluorescence detection with Fisher information analysis. To improve the precision and the resolution of quantitative imaging methods, we demonstrate strategies for the optimization of fluorescence lifetime, fluorescence anisotropy and hyperspectral detection, as well as different multi-...
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
In recent years, a number of approaches have emerged that enable far-field fluorescence imaging beyo...
Light microscopy is an important driving force for new biological discoveries because of its capabil...
Two decades of fast-paced innovation have improved the spatial resolution of fluorescence microscopy...
Due to the diffraction limit of light, the resolution of fluorescence light microscopy is limited to...
Fluorescence microscopy and spectroscopy are in-vivo compatible techniques that are currently standa...
Applicability to living specimens and genetically encodable tagging has made fluorescence microscopy...
Studying the structure and interactions of molecules and cells in their native environments has alwa...
The phenomenon of diffraction limits the resolution in fluorescence imaging. While biological struct...
Fluorescence microscopy is an essential tool in biomedical sciences that allows specific molecules t...
Super-resolution fluorescence microscopy is a promising tool with the potential to strengthen our un...
Super-resolution fluorescence microscopy and its applications for analysis of biological structures ...
Diffraction limits the biological structures that can be imaged by normal light microscopy. However,...
In recent years, a number of approaches have emerged that enable far-field fluorescence imaging beyo...
AbstractBiological structures span many orders of magnitude in size, but far-field visible light mic...
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
In recent years, a number of approaches have emerged that enable far-field fluorescence imaging beyo...
Light microscopy is an important driving force for new biological discoveries because of its capabil...
Two decades of fast-paced innovation have improved the spatial resolution of fluorescence microscopy...
Due to the diffraction limit of light, the resolution of fluorescence light microscopy is limited to...
Fluorescence microscopy and spectroscopy are in-vivo compatible techniques that are currently standa...
Applicability to living specimens and genetically encodable tagging has made fluorescence microscopy...
Studying the structure and interactions of molecules and cells in their native environments has alwa...
The phenomenon of diffraction limits the resolution in fluorescence imaging. While biological struct...
Fluorescence microscopy is an essential tool in biomedical sciences that allows specific molecules t...
Super-resolution fluorescence microscopy is a promising tool with the potential to strengthen our un...
Super-resolution fluorescence microscopy and its applications for analysis of biological structures ...
Diffraction limits the biological structures that can be imaged by normal light microscopy. However,...
In recent years, a number of approaches have emerged that enable far-field fluorescence imaging beyo...
AbstractBiological structures span many orders of magnitude in size, but far-field visible light mic...
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
In recent years, a number of approaches have emerged that enable far-field fluorescence imaging beyo...
Light microscopy is an important driving force for new biological discoveries because of its capabil...