Synchrotron infrared light

Materials sciences using synchrotron infrared light sources... 

L. M. Miller and P. Dumas, Chemical imaging of biological tissue with synchrotron infrared light, Biochim. Biophys. Acta., 2006,1758(7), 846-57. 

Figure 3.2 The visible light and synchrotron infrared images of protein distribution of CalB on Lewatit in Novozym 435. Reproduced with permission from [6], (Copyright (2003) American Chemical Society).

The world has a growing number of synchrotron infrared beamlines and their use has also rapidly grown across a wide number of scientific applications. This review is far from comprehensive, but we hope it has highlighted several of the exciting recent developments in the field and the application of these sources to a wide variety of materials science. And in the near future we anticipate several advances, which will further increase the uses and capabilities of synchrotron, based infrared spectroscopies and microscopies. To find out more about how synchrotron infrared techniques may play a role in your research, we encourage you to contact one of the many friendly infrared beamline scientists at a synchrotron light source near you [2]. 

The only X-ray source with sufficient intensity for surface measurements is synchrotron radiation. Synchrotron radiation is white light, including all wavelengths ftom the infrared to X rays. A spectroscopy experiment needs a particular wavelength (photon energy) to be selected with a monochromator and scanned through... 

The light sources used for CD measurements must be intense and should possess good short-term stability. Synchrotron radiation promises to be an excellent source of radiation for CD measurements in the wavelength range from vacuum ultraviolet to infrared 247, 248). 

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