A new method turns noise into valuable data to enhance understanding of chemical reactions and material properties with ...

A team of NYU chemists and physicists are using cutting-edge tools—holographic microscopy and super-resolution imaging—to unlock how cells build and grow tiny, dynamic droplets known as biomolecular ...

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

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

In this study, researcher developed a new imaging approach that combines two powerful techniques to solve this problem. First ...

Studying how cells work inside a living body is one of the most powerful ways to understand health and disease. However, looking deep inside live tissue is extremely challenging, especially when ...

This cutting-edge method, developed by an international team of scientists, uses the unique properties of the X-ray laser of European XFEL at Schenefeld near Hamburg, Germany—the largest X-ray laser ...

Researchers are creating new moiré materials at the nanometer scale using advanced DNA nanotechnology. DNA moiré ...

The protein SNAP-tag is a powerful tool for labeling proteins with synthetic fluorophores for bioimaging. Scientists at the Max Planck Institute for Medical Research in Heidelberg have engineered a ...

A recent study led by Paul DeCaen, Ph.D., associate professor of Pharmacology, has identified novel molecular mechanisms by ...

If you ever looked at a butterfly wing, spider, or ant through the lens of your high school's dissecting microscope, it was likely fuzzy, with only a ...