Magnetic resonance imaging (MRI) is one of medicine's most powerful diagnostic tools. But certain tissues deep inside the ...

Atoms measure roughly 0.1 nanometers across, a scale so small that scientists spent more than six decades developing ...

As space agencies prepare for human missions to the moon and Mars, scientists need to understand how the absence of gravity ...

Mother of pearl reveals layered formations and natural iridescence under magnification, highlighting the remarkable design of organic materials at a microscopic level. #NaturalBeauty #Microscopy #Hidd ...

That instinct to zoom in has carried Lillian Hutchinson, now a senior chemical engineering major in the Honors College at the U of A, from a childhood fascination to the leading edge of regenerative ...

Platform-enabled vaccine design unlocks safer, more effective solutions with outer-membrane vesicles (OMVs) emerging as ...

Many technological applications, such as sensors and batteries, greatly rely on electrochemical reactions. Improving these technologies depends on understanding how electrochemical reactions work.

Physicists in Leiden have developed a microscope that can assess four important features of a material in a single scan, all ...

The implications of the breakthrough could ripple through multiple industries. A better understanding of how superconductivity behaves at quantum scales could accelerate the development of ...

Selecting the healthiest embryo is one of the most important steps in in‑vitro fertilization (IVF), yet it remains one of the ...

MIT physicists have built a new microscope that can see quantum motion inside superconductors using terahertz light. The advance lets scientists observe electronic behavior that remained hidden for ...

Abstract: Due to the uniform sampling pattern and concise trajectory generation, the raster scan has become the mainstream scan mode for atomic force microscopes (AFMs). However, the high-frequency ...