Kaiser hosts a series of complimentary webinar presentations which demonstrate Raman Spectroscopy-based solutions. Hear from real customers and their success stories using Kaiser Raman analyzers and instruments. Examples of Research Raman, Analytical Raman, Process Raman, In Situ Raman, Industrial Raman, Remote Raman, and Raman Imaging and Microscopy are available during these sessions. We invite you to register for an upcoming webinar of interest, or view previous archives. Kaiser Webinar Archives are available in the sidebar -- see what you've been missing!
Real Customers - Their Applications, Raman Solutions
Raman Spectroscopy with Synchrotron X-ray-based Techniques: A Powerful Approach in Materials Science and Heterogeneous Catalysis
Over the last 10 years an increasing number of studies combining Raman spectroscopy with Synchrotron Radiation (SR) based techniques like X-ray Absorption Spectroscopy (XAS) have been reported. Such developments are possible due to the evolution of the instrumentation, which enables one to use smaller Raman spectrometers with rapid collection time and optimal spectral resolution and performance. In addition, the advent of bright SR sources allows for collecting time-resolved data with a time scale suitable for dynamic materials characterizations.
The combination of Raman with XAS has clear advantages with respect to separate experiments. This approach eliminates errors due to differences in sample environment, thermal history, ageing, temperature, and sample preparation. Even more important is the possibility to resolve ambiguities in processing by allowing accurate determination of the occurrence of chemical and physical events with a high time frame.
In this lecture, I will discuss how Raman and XAS techniques have been combined at the SOLEILâ€™s SAMBA beamline. Selected results will illustrate how powerful and complementary this combination is. In addition, the benefit of XAS analysis paired with complementary local order vibrational information by Raman, in the case of genesis of SnO2 nanoparticles by sol-gel route will be discussed. The analysis of reaction products by means of Raman, with structural and electronic characterization of the catalyst in working conditions provided by Quick-EXAFS will be also presented for the Fischer-Tropsch reaction and the ethanol steam reforming process. Lastly, it will be shown how essential the use of such combinations for unraveling the driving force leading to unusual thermally reversible sol-gel transition in the ZrOCl2.8H2O-HCl ternary phase diagram really are.
AIR DATE: December 4, 2014
Name: Dr. Valerie Briois
Title: Beamline Manager of the ROCK Beamline (Rocking Optics for Chemical Kinetics)
Company: SOLEIL Synchrotron
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