Spectroscopy News
Hyperspectral imaging has been shown to detect stress when a plant takes up cadmium, which may lead to methods to keep the heavy within the soil and avoid potential pollution.
A research team has used x-ray photoelectron spectroscopy to observe charge motions in light-excited molecules of thiouracil, a modified nucleobase.
Emberion, a partner in the Graphene Flagship, has raised €6 million in funding to further develop their infrared imaging business including vis-SWIR cameras.
Researchers from the Medical University of South Carolina have used mass spectrometry imaging to study the efficacy and distribution of injected biomaterials for the treatment of heart attack.
fNIRS can determine impairment from cannabis intoxication and could be used as a “breathalyser” on drivers.
A research group at Eindhoven University of Technology has developed a new NIR sensor that is easy to make, comparable in size to sensors in smartphones and ready for immediate use in industrial process monitoring and agriculture.
KPM Analytics has acquired Bruins Instruments, a manufacturer of high-resolution near infrared reflectance and transmission analysers.
Researchers improve their scientific understanding of heterogeneous catalysis by imaging the gas just above the surface of the catalyst.
The fusion reflectance and transmission NIR spectra can improve predictions of the three main components of rice flour.
Wasatch Photonics and Nikalyte Ltd have announced a partnership to facilitate evaluation and testing of a novel surface-enhanced Raman spectroscopy (SERS) substrate for trace detection of materials.
Dr Christoph Mätzig, who is moving within the AMETEK Group and has taken over the management of the Ultra Precision Technologies division, will be succeeded by Michael Privik.
A team at the University of Oxford has developed a new type of blood test, using NMR metabolomics, that can be used to detect a range of cancers and whether these cancers have metastasised in the body.
Quantum mechanically entangled light particles allow a glimpse into previously invisible wavelength ranges, thus bringing about new possibilities for imaging techniques, microscopy and spectroscopy.
In situ Raman and X-ray absorption spectroscopy can track the dynamic catalytic processes, capture the short-lived intermediates and reveal reactive sites.
A new test for prostate cancer using Raman spectroscopy could be “pivotal” in providing more accurate diagnosis, easing the suffering of patients and saving lives.
A new X-ray technique developed at Cornell offers an unprecedented look at the elaborate inner workings of batteries while they are in use, and is already yielding important findings for the development of next-generation energy storage.
A research team from the Dalian Institute of Chemical Physics has unravelled the surface hydroxyl network on In2O3 nanoparticles with high-field ultrafast magic angle spinning nuclear magnetic resonance spectroscopy.
Scientists from Russia and France have won a grant from the Russian Ministry of Science and Higher Education for international research groups. Together they are designing a new approach to analysing which gases in the atmosphere using terahertz spectroscopy and AI.
The First Student meeting of the Coblentz Society and NE & NY Society for Applied Spectroscopy (SAS) Sections invites submissions from PhD students from across the world working in all fields of vibrational spectroscopy.
A predictive model based on magnetic resonance spectroscopy can detect lung cancer from alterations in blood metabolites. The discovery paves the way for early-stage lung cancer screening, which may dramatically improve survival rates.