The wide-field microscope can capture real-time, non-invasive measurements of molecular size in liquids and gases.

The orbital angular momentum of electrons has long been considered a minor physical phenomenon, suppressed in most crystals ...

AI advancements in microscopy are reshaping electromechanical measurements, streamlining automated experimentation and driving innovation in materials research.

Austrian researchers have uncovered a new property of graphene as removing atoms creates waves that make it more stretchable than ever ...

In biology classes from high school through university, I learned that mitochondria are little objects that reside within ...

My search for answers to these stupendously ambitious questions led me, it now seems inexorably, to mitochondria. This idea of mitochondria being little batteries with a built-in charger, about as ...

ORNL develops new imaging method to study domain walls in ferroelectric materials, aiding energy-efficient electronics.

The University of Vienna's study on graphene's stretchability offers groundbreaking insights, crucial for developing advanced ...

What if ultrafast pulses of light could operate computers at speeds a million times faster than today's best processors? A team of scientists ...

This valuable study reports the conservation of sperm-egg envelope binding by demonstrating successful recognition of the micropyle in fish eggs by the mouse sperm. However, the evidence supporting ...

Thick multicellular plant samples provide unique challenges when it comes to cryo-preservation, which has resulted in limited successful examples for structural studies using in situ cryo-electron ...