Sub-diffraction colocalization analysis reveals interactions unprecedented detail. Enabling novel discoveries to be made in the fields of virology, immunology, neuroscience and cancer, super-resolution is on its way to becoming the new gold standard in light microscopy.
Explore life’s true nature in unprecedented detail.
Super-resolution and nanoscopy products
It is about 20 years since super-resolution microscopy and nanoscopy arrived on the light microscopy scene, but it already plays an important role, particularly in life sciences – without superseding conventional confocal microscopy. The term super-resolution refers to methods that surpass the so-called diffraction limit. Applications are wide ranging – from dynamic vesicle movements to fluorescence images of sub-cellular structures, allowing researchers to see details in unprecedented detail. LIGHTNING Image Information Extraction is a super-resolution method that exploits the sub-diffraction lateral resolution capabilities of confocal microscopy. With LIGHTNING on a SP8 confocal microscope you can image multiple fluorophores simultaneously – without the need for sequential scanning. You can capture cellular details and observe dynamics with resolution down to 120 nm. As a truly infinitely super-resolving technology, STED nanoscopy offers resolution down to 30 nanometers. STED provides instant super-resolved imaging with multiple channels and approaching isotropic super-resolution in three dimensions. Underlining the impact of super-resolution microscopy, the 2014 Nobel Prize for Chemistry was awarded jointly to Eric Betzig, Stefan W. Hell and William E. Moerner "for the development of super-resolved fluorescence microscopy".
- Super-resolution microscopy such as Stimulated Emission Depletion (STED) and single-molecule based techniques rely on the same principle for breaking the diffraction limit: the unwanted fluorescence…Read article
- The Nuclear Pore Complex (NPC) is a large complex in the nuclear membrane, representing the gate to the eukaryotic genetic makeup. Because of this outstanding function the structure of the NPC is of…Read article
- Optical imaging devices have a finite depth of field and diffraction limited resolution. The depth of field problem was tackled first with confocal microscopes, diffraction unlimited resolution is…Read article