Researchers have successfully demonstrated a spectrometer that is orders of magnitude smaller than current technologies and ...

The ultrafast placement of an electron in a polar liquid generates collective molecular vibrations in a spherical nano-volume ...

Proper monitoring of anesthesia stages can guarantee the safe performance of clinical surgeries. In this study, different anesthesia stages were classified using near-infrared spectroscopy (NIRS) ...

Molecular vibrations, when paired with near-infrared (NIR) light, have opened a new chapter in cancer treatment. Instead of relying on radiation or chemicals, scientists now use finely tuned ...

Uniquely, DELID allows molecular property prediction using electron-level information without actually performing quantum computations on the target molecule.

The expedition team sought to decode the quantum energy field behind each manifestation. The expedition followed the Lotus-Born Master’s historic journey covering over 20,000 kilometers under extreme ...

No quantum computer had simulated this level of complexity in the energy levels of molecules before, says Alán Aspuru-Guzik, a computational chemist at the University of Toronto in Canada.

Infrared (IR) spectroscopy is a fundamental tool for analyzing molecular structures and chemical interactions by identifying the vibrational modes of molecules. Traditional quantum mechanical methods, ...

Fourier Transform Infrared (FTIR) Spectroscopy is a key tool for identifying chemical compounds and analyzing molecular structures. Learn how to read and interpret FTIR spectra for accurate ...

Quantum mechanical vibrational coherence transfer processes play important roles in energy relaxation, charge transfer, and reaction dynamics in chemical and biological systems but are difficult to ...