Both NIR and Raman spectroscopy will tell you what is happening inside your bioreactor in real time. Choosing the right one requires knowing exactly where each technique breaks down. NIR vs Raman ...

There are obvious differences between cancerous cells and normal cells in morphology, chemical properties and mechanical properties. The detection of cytochemical and mechanical properties of tumor ...

Stimulated Raman scattering (SRS) has been developed as an essential quantitative contrast for chemical imaging in recent years. However, while spectral lines near the natural linewidth limit can be ...

Raman spectroscopy has emerged as a versatile non-invasive analytical technique central to molecular characterisation of pharmaceutical substances and formulations. Based on inelastic scattering of ...

The medical field is a new frontier for Raman spectroscopy. Raman has already been employed in dentistry and cancer investigations, and it is now expanding into Point-of-Care (POC) applications. This ...

Raman spectroscopy is a reliable quantitative and qualitative technique used to examine molecular or material samples. Raman spectroscopy’s sensitivity to a sample’s vibrational structure makes it ...

Learn about the unprecedented capabilities of Raman spectroscopy in Avantes’ most recent article. This measurement approach delivers real-time information on the chemical composition of materials, ...

Raman spectroscopy is an analytical technique that allows for the assessment of molecular structure and the identification of materials by examining the rotational and vibrational modes of molecules.

An AI framework processes 176,000 Raman spectroscopy papers, turning them into a knowledge graph that uncovers landmark discoveries, tracks community evolution, and forecasts emerging scientific ...

There are obvious differences between cancerous cells and normal cells in morphology, chemical properties and mechanical properties. The detection of cytochemical and mechanical properties of tumor ...