Electronics keep shrinking, but silicon is starting to run into physical limits. To go smaller, researchers are turning to ...

IBM scientists have been able to differentiate the chemical bonds in individual molecules for the first time using a technique known as noncontact atomic force microscopy (AFM). The results push the ...

Researchers used atomic clock laser methods and a helper calcium atom to control a calcium monohydride molecule, expanding ...

Electron spin resonance (ESR) is a key tool for the spectroscopic characterization of chemicals. It relies on resonantly changing the spin state of electrons (spin is an intrinsic quantum property of ...

A research team has succeeded in precisely controlling the transition temperature of atomic-scale-thick superconductors using magnetic organic molecules. The team also identified the control mechanism ...

Using the world’s most powerful X-ray laser, scientists have filmed atoms performing an eternal quantum dance that never stops — even at absolute zero.

Achieved the first spectroscopic observation of hydrogen (H 2) and deuterium (D 2) molecules physically adsorbed within an atomic-scale space known as a picocavity. Employed picometric ...

Molecules containing three atoms have been laser cooled to ultracold temperatures for the first time. The feat was achieved by John Doyle and colleagues at Harvard University in the US, who used a ...

Power of three: Schematic image showing ultracold triatomic molecules forming by associating diatomic molecules and atoms. (Courtesy: Bo Zhao/USTC) Researchers in China have found strong evidence of ...

In extreme slow-motion, a molecule of medicine entering a cell receptor would look a little like a Soyuz space capsule docking at the International Space Station. It would brake here, boost there; ...

Some of the innermost workings of molecules are being revealed for the first time. When molecules gain an electric charge, their structure can change, and now we have watched it happen. Shadi Fatayer ...