Now, mass spectrometry is used to capture these ions in a vacuum and to analyse their structure using cryogenic infrared spectroscopy, in conjunction with computational calculations. We developed ...

This study presents a dimer-dominated emission quenching mechanism that enhances second near-infrared emission in ring-fused fluorophores by reducing dimer populations for high-resolution vascular ...

Getting more out of X-ray scattering ... of a molecule, it opens a door to observing much more complex molecules than iron pentacarbonyl. Combining the structural results with spectroscopy data ...

XPS has been used for decades to examine surface composition and chemistry. But lesser-known approaches can reveal a range of ...

The James Webb Space Telescope (JWST) has unlocked the depths of interstellar space with unprecedented clarity, offering ...

The lens uses tiny nanoparticles that absorb ... near-infrared light penetrates the eyelid more effectively than visible light.” Currently, the lenses are only able to detect infrared radiation ...

It dramatically reduces how big a quantum computer you need to simulate a molecule. We simulated the behaviour of three molecules absorbing light: allene, butatriene, and pyrazine. Each molecule ...

We describe a new integrated optical spectroscopy facility for high-pressure research in materials research and mineral science located at the beamline BL01B of the Shanghai Synchrotron Radiation ...

Contribution from the Department of Chemistry, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, and Materials Science Centre, University of Groningen, Nijenborgh 4, 9747 AG ...

A scaffolded infrared (IR) assignment was designed to support novice learners ... a data table of functional groups that can be readily identified by infrared spectroscopy. Students use their ...