Raman spectroscopy can provide useful data on graphene layers and quality, helping to adress the challenges in producing high ...

Current medical imaging techniques mostly provide information based on morphological or anatomic differences of the tissue, disregarding the underlying molecular composition. Molecular-sensitive ...

Vibrational spectroscopy uses visible and infrared light to reveal molecular-level details, enabling high-quality material ...

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 ...

Raman spectroscopy is a non-destructive investigative method for identifying and distinguishing chemical substances on a microscopic scale. When coupled with chemometric approaches, it forms an ...

Oxford Instruments’ Raman imaging team announces a refreshed core microscope line and a groundbreaking new spectrometer: Hexalight. Together, the witec360 microscope and Hexalight spectrometer ...

A team has reported a Raman microscopy technique that produced images up to eight times brighter than those achieved with conventional Raman techniques. Imaging of frozen biological samples reduced ...

Imagine knowing what berry or mushroom is safe to eat during a hike or swiftly detecting pathogens in a hospital setting that would traditionally require days to identify. Identification and detection ...

Can you provide an overview of Bruker's BRAVO handheld Raman spectrometer and its primary applications across industries? Most handheld Raman spectrometers are built for quick, on-the-spot material ...