Example super-resolution microscopy systems are described herein that are configured for relatively high throughput. The disclosed microscopy systems can be to generate an array of sub-diffraction activated areas for imaging. The microscopy systems can be to utilize imaging techniques that employ time ...
Super-resolution microscopy (SRM) describes a number of microscopy techniques that enable imaging of cellular structures at resolutions beyond the Abbe diffraction limit. Nano-Boosters, Nano-Labels, and Nano-Secondaries, which consist of Nanobodies conju
Find out more about Leica super-resolution microscopy solutions and how they can empower you to visualize in fine detail subcellular structures and dynamics.
Super-resolution microscopy (SRM) bypasses the diffraction limit, a physical barrier that restricts the optical resolution to roughly 250 nm and was previously thought to be impenetrable. SRM techniques allow the visualization of subcellular organization with unprecedented detail, but also confront ...
Super-resolution Microscopy in Plant Cell Imaging. Although the development of super-resolution microscopy methods dates back to 1994, relevant applications in plant cell imaging only started to emerge in 2010. Since then, the principal super-resolution methods, including structured-illu... G Komis,...
Optical super-resolution microscopy in neurobiology Understanding the highly plastic nature of neurons requires the dynamic visualization of their molecular and cellular organization in a native context. How... SJ Sigrist,BL Sabatini - 《Current Opinion in Neurobiology》...
Despite the advantages of traditional fluorescence microscopy, the technique is hampered in ultrastructural investigations due to the resolution limit set by the diffraction of light, which restricts the amount of information that can be captured with standard objectives. In the past few years, a ...
Point spread function (PSF) splitting with the ‘Circulator’, which encodes the fluorophore emission band into the PSF, improves the information content of fluorescence microscopy and enables improved super-resolution imaging and single-particle tracking. Robin Van den Eynde , Fabian Hertel & Peter ...
Super-resolution microscopy has overcome a long-held resolution barrier—the diffraction limit—in light microscopy and enabled visualization of previously invisible molecular details in biological systems. Since their conception, super-resolution imaging methods have continually evolved and can now be used ...
Single-Molecule Super-Resolution Microscopy Reveals How Light Couples to a Plasmonic Nanoantenna on the Nanometer Scale The greatly enhanced fields near metal nanoparticles have demonstrated remarkable optical properties and are promising for applications from solar energy t... E Wertz,BP Isaacoff,JD ...