Pushing the MINFLUX technique to higher spatial and temporal precision allows protein dynamics to be observed under physiological conditions. Scientists led by Nobel Laureate Stefan Hell at the Max ...

MINFLUX is a powerful microscopy technique that allows researchers to see objects much smaller than the wavelength of light. A newly developed evolution of the process uses a simpler device to create ...

In 2014, a resolution limit in optical microscopy that appeared essential was broken, resulting in the award of a Nobel Prize in Chemistry. Since then, in the field of super-resolution microscopy, ...

The resolution of optical microscopy is limited by diffraction limit and can only achieve a resolution of about 200 nm. In the past two decades, a series of technologies, such as STED, SIM, PALM/STORM ...

Polyprolines of different lengths, relatively stiff polypeptides, served as intramolecular “nanometer rulers” to demonstrate the highest MINFLUX resolutions in the Förster resonance energy transfer ...

The researchers have now published their results in the journal Science ("Direct optical measuerement of intramolecular distances with angstrom precision"). What does it look like in the nanocosmos of ...

MINFLUX is a super-resolution microscopy protocol designed to improve the localizing of specific photon emitters in space. Developed in 2016 by a German team including super-resolution pioneer and ...

Researchers have developed an innovative method to simultaneously track rapid dynamic processes of multiple molecules at the molecular scale. Researchers at LMU have developed an innovative method to ...

Three-dimensional (3D) super-resolution microscopy is essential to study the minute structural details of cells and analyze molecular dynamics. Recently, researchers at Ludwig-Maximilians-Universität ...