Researchers have uncovered how atoms subtly rearrange themselves for up to a trillionth of a second before releasing low-energy electrons after X-ray excitation.

Most people know that you can't see atoms... or can you? With this special microscope, scientists actually can! In the late ...

A new computational framework maps 3D atomic positions in amorphous materials, achieving full accuracy for silica using ...

Researchers at the California NanoSystems Institute at UCLA published a step-by-step framework for determining the ...

A burst of invisible light can do more than illuminate a surface. In a new study, Michigan State University researchers used ...

Inserting, removing or swapping individual atoms from the core of a molecule is a long-standing challenge in chemistry. This ...

Daniel Urban & Corinne Campbell shows ciLiving host, Jaclyn Friedlander how to collect a simple stomata imprint from plants and view it under a microscope. This video shows how to collect a simple ...

One of Scotland’s smallest distilleries is working with Heriot-Watt scientists to find out whether aluminium could replace glass bottles for its Scotch whisky.

Atoms that occur in nature interact with the electromagnetic field at a single point, allowing scientists to make certain assumptions about energy levels with point-like references. However, ...

The Global X U.S. Preferred ETF provides diversified exposure to preferred securities, with an emphasis on traditional fixed-rate preferred stocks. PFFD's portfolio includes baby bonds, mandatory ...

Scientists have crafted a visible form of a “time crystal,” a strange phase of matter that moves in endlessly repeating patterns when illuminated. Using liquid crystals similar to those in phone ...