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Discover how to overcome common Raman spectroscopy challenges

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Join us on Wednesday, July 8, to find out how to overcome the challenges caused by difficult samples in Raman spectroscopy

22 Jun 2020
Edward Carter
Publishing / Media

Expert insights

Prof. Wesley Browne, University of Groningen

Raman spectroscopy combines the information density of vibrational spectroscopy with the experimental flexibility of optical spectroscopy and provides label-free analysis of samples in solid, liquid, crystalline and gas phases.

Although a ‘weak’ effect, Raman spectroscopy can be applied in fast reactions using standard sampling arrangements. When the millisecond timescale is desired or samples give weak scattering, then every photon counts and it may be tempting to use higher power laser. Locally intense laser powers generate heat and thermal damage, photodegradation and bleaching as well as background fluorescence. Less obviously, given that typically CW lasers are used, two-photon processes can also present challenges.

The wide range of situations that can be encountered present many unique challenges particular to each application, but there are a number of principles that are common to all. The design of the system as a whole is key to success in overcoming apparent limitations to Raman spectroscopy.

Our upcoming webinar, presented by Prof. Wesley Browne, University of Groningen, will also show how these same artefacts can provide information beyond the vibration and be used to increase the information density of this remarkable technique.

Register here

Key learning objectives:

  • Samples that are fluorescent or photo- and thermally sensitive
  • Choice of wavelength (UV to NIR) in terms of photon flux and thermal management
  • Inhomogeneities and surface behavior
  • Dynamicity/speed in single and multi-phase flows – rapidity of species transformation either as the reaction progresses or when influenced by external parameters
  • Stopped flow reaction monitoring – why use Raman rather than the more conventional absorption approach

Who should attend?

  • Those working to analyze weakly scattering or complex and sensitive samples for inline reaction progress monitoring.

Certificate of attendance

All webinar participants can request a certificate of attendance, and a learning outcomes summary document for continuing education purposes.

This webinar will run on Wednesday, July 8, at:

  • 16:00 BST
  • 11:00 EDT
  • 08:00 PDT
  • 17:00 CEST

Register for this webinar here>>

SelectScience runs 3-4 webinars a month across various scientific topics, discover more of our upcoming webinars>>

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Raman SpectroscopyRaman spectroscopy is used to discern the vibrational and rotational states of molecules and hence the chemical composition of a sample by measuring the inelastic scattering of monochromatic light. Explore a range of Raman spectrometers, including handheld/portable Raman spectrometers for QC/QA labs and in situ spectrometers for processes. Conduct Raman imaging for microanalysis of mixed samples using a Raman microscope. Raman spectrographs are also available. Find the best Raman spectroscopy products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.UV-Visible SpectroscopyUltraviolet-visible (UV-Vis) spectrophotometers are used to measure the interaction of UV and visible light with a sample, including transmission, reflectance & absorbance. The two major instrument classes are single-beam or double-beam spectrophotometers. More specialized equipment includes colorimeters, spectroradiometers and refractometers. Portable and microvolume spectrophotometers are also available. For the modular spectroscopy lab, explore a range of light sources for combination with a spectrograph/spectrometer and optics. Find the best UV-Vis spectroscopy products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.UV-Visible-NIRUV-Visible-NIR spectroscopy is used to analyze a wide range of samples based on their absorption of ultraviolet, visible, and near-infrared light. It is commonly applied in chemical analysis, material science, and quality control. Browse our peer-reviewed product directory to find the best UV-Visible-NIR spectroscopy systems, compare products, check reviews, and get pricing directly from manufacturers.SpectroscopySpectroscopy is a technique that analyzes the interaction of light with matter to study molecular properties, concentrations, and structural information. Widely used in chemical, pharmaceutical, and environmental analysis, spectroscopy offers insights into molecular composition and helps identify unknown compounds. It plays a key role in quality control, research, and diagnostics. Browse our peer-reviewed product directory to compare spectroscopy tools, read reviews, and get prices directly from manufacturers.

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