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Many chemical species are too reactive under normal conditions to allow normal spectroscopic investigation. The technique of matrix isolation was developed to exploit the stabilisation that arises when the reactive species is physically trapped, restricting its freedom of movement and access to possible reaction partners. The use of cryogenic conditions to achieve the physical trapping brought valuable consequences in reducing the energy available to the species, meaning they can be studies using a variety of spectroscopic techniques. In simple terms the technique involves trapping a reactive species in a frozen cage, or matrix, of an inert medium such as a rare gas or in other situations nitrogen or carbon monoxide. This 1975 book shows how and why the technique developed and describes the necessary apparatus in some detail, showing how each of the technological problems may be overcome.
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- Date Published: September 2011
- format: Paperback
- isbn: 9780521275453
- length: 154 pages
- dimensions: 216 x 140 x 9 mm
- weight: 0.2kg
- availability: Available
Table of Contents
2. Matrix models and their properties
3. Cryogenic, vacuum and oven technology
4. Production of matrices containing reactive species
5. Application of spectroscopy to matrix-isolated species
6. Effects of the matrix on spectroscopic properties
7. Fragment molecules studied in matrices
8. Unusual metal compounds
9. Conclusions and outlook
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