Coblentz left no stone unturned – he measured spectra in transmission and in reflection. He even measured the emission ...

Infrared vibrational spectroscopy at BESSY II can be used to create high-resolution maps of molecules inside live cells and ...

Learn how FTIR spectroscopy simplifies pharmaceutical formulation by providing rapid, accurate molecular analysis.

A novel spectroscopic method developed at Institute of Science Tokyo, Japan, enables highly sensitive analysis of molecules at material interfaces, using a combination of conventional ATR-IR, precise ...

Researchers say that ancient Greek vases dating back to 450 to 440 BC used in the funeral rites of the elite most likely used ...

Discover how FTIR spectroscopy enhances quality control in GLP-1 weight loss drug production by ensuring molecular ...

Learn how SpectroGen uses generative AI for accelerated materials characterization, producing accurate spectra in under a ...

New research has found that amino acids, the building blocks of life, may have traveled to Earth on interstellar dust grains, ...

Discover how Thermo Fisher’s handheld Raman and lab FTIR tools are transforming controlled substance testing with safer, ...

Emerging technologies, such as functional near-infrared spectroscopy, offer in-office real-time monitoring for potential ...

"Yuheng" derives its name from the fifth star of the Big Dipper, once used by ancient Chinese astronomers to calibrate ...

Infrared vibrational spectroscopy at BESSY II can be used to create high-resolution maps of molecules inside live cells and cell organelles in native aqueous environment, according to a new study by a ...