Process spectroscopy refers to the use of spectroscopic techniques for real-time monitoring and analysis of industrial processes. It is a non-destructive analytical method that can provide valuable ...

Biomedical imaging with light-scattering spectroscopy (LSS) is a novel optical technology developed to probe the structure of living epithelial cells in situ without need for tissue removal.

Here, we demonstrate successful single-atom imaging and spectroscopy in low-dimensional materials using (scanning) transmission electron microscopy together with electron energy-loss spectroscopy ...

The Imaging Spectroscopy department of the Remote Sensing Technology Institute develops, tests and operates systems for remote sensing in the optical and infrared ...

You will be redirected to our submission process. Quantum light has been studied extensively in recent years for its potential for providing unprecedented levels of sensitivity and resolution in ...

A suite of optical spectroscopic instruments provide chemical imaging at length scales from the nanoscale to the macroscale. Some are coupled with scanning probes, and others with scanning confocal ...

The Structure, Spectroscopy & Imaging section is dedicated to publishing research focused on the intersection of chemical biology, structural features, spectroscopic characterization, and imaging ...

We aim to understand and optimise pharmaceutical performance through innovative spectroscopy and imaging solutions. We have a strong focus on advancing various forms of vibrational spectroscopy, mass ...

The MR core facility currently utilizes a 9.4T 20-cm bore magnet imaging/spectroscopy system operating at 400 MHz for proton imaging experiments alongside a 7T/30 scanner. Ultra high-resolution ex ...

Spectral imaging combines spectroscopy with imaging, whereby spectral information is captured at the pixels of a sensor. The systems typically have numerous channels covering different wavelength ...