In a surprising turn of events, an international team of scientists has found that lead-208 (208Pb), the heaviest known ...

The approach uses X-ray absorption near edge structure (XANES) spectroscopy. Accurately determining atomic structures from spectroscopic data has long posed a challenge, particularly for complex ...

Salt slurries in petri dishes with methanol are ignited and characteristic colors for various metals are observed. Colors of emission spectra are due to loosely-bound valence electrons being excited ...

The Atomic Spectroscopy Group is one of the RSC's many Interest Groups. The Interest Groups are member driven groups which exist to benefit RSC members, and the wider chemical science community, in ...

The objective of the research in the atomic and molecular laser spectroscopy laboratory is to gain knowledge about the basic properties of ions and neutral atoms and molecules, with a particular ...

A research has developed a method to detect harmful heavy metals through a selective catalytic double metal single atom in ...

Using a novel surface-sensitive spectroscopy method, scientists explored atomic vibrations in crystalline material surfaces near interfaces. The findings illuminate quantum behaviors that play ...

The Allan Ure Bursary is awarded on an annual basis, alternately by the Atomic Spectroscopy Group of the Analytical Division of the Royal Society of Chemistry (ASG, AD, RSC) and the Atomic ...

The new ZJNU platform also employs a dual quantum cascade laser architecture, with one laser acting as the main source for ...

Burkert's expertise in fluidics facilitates the development of tailored gas control solutions that enhance performance across ...

Muon spin rotation (µSR) spectroscopy is a powerful technique that helps to study the behavior of materials at the atomic level. It involves using muons—subatomic particles similar to protons ...