Advanced light microscopy techniques have come into their own — and are giving scientists a new understanding of human biology and what goes wrong in disease ...

A team of NYU chemists and physicists are using cutting-edge tools—holographic microscopy and super-resolution imaging—to ...

Breakthrough imaging technique at Caltech captures molecular motions in real-time, revolutionizing microscopy and scientific ...

Until today, skin, brain, and all tissues of the human body were difficult to observe in detail with an optical microscope, ...

Homeostatic plasticity, the brain's method of preserving equilibrium in neural circuits, relies heavily on spontaneous ...

Super resolution microscopy breaks through the diffraction limit, allowing scientists and researchers to visualise the nano-world, imaging sub-cellular details, viruses, proteins and molecules using a ...

Fluorescence microscopy, in particular super-resolution microscopy (i.e., nanoscopy) has become indispensable in this emerging field. MINFLUX, ...

The microscope transitions live-cell to super-resolution imaging at 15nm resolution and contains 110 by 110 micrometers of field-of-view in both diffraction-limited and single-molecule ...

Major advance in super-resolution fluorescence microscopy Pushing the MINFLUX technique to higher spatial and temporal precision allows protein dynamics to be observed under physiological conditions ...

A team of NYU chemists and physicists are using cutting-edge tools—holographic microscopy and super-resolution imaging—to ...

An improved version of their recently introduced MINFLUX super-resolution microscopy allowed tiny movements of single proteins to be observed at an unprecedented level of detail: the stepping motion ...