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Chemistry and physics of matrix-isolated species
Lester Andrews,Martin Moskovits +1 more
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TLDR
The chapters in this book describe many of the contributions of matrix-isolation spectroscopy to chemistry and physics in the last decade, and predict the continued evolution of this technique over the next decade.Abstract:
Matrix-isolation spectroscopy, as a technique for studying unstable species, has had tremendous lasting powers. Since 1954, matrix-isolation has been able to assimilate new technology rather than being replaced by it. The matrix-isolation technique for producing and trapping new chemical species has been applied to an ever increasing range of chemical and physical problems since its inception. The last 12 years have seen a substantial number of new developments and applications of the matrix technique. The chapters in this book describe many of the contributions of matrix-isolation spectroscopy to chemistry and physics in the last decade, and as such predict the continued evolution of this technique over the next decade. Experimental techniques are generally closely related to the development of new apparatus, and each chapter has a section describing innovations in instrumentation such as the closed-cycle cryogenic cooler that has revolutionized the technique. In addition, each chapter describes many of the specialized methods used to prepare, trap and study particular new subject species.read more
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Journal ArticleDOI
The generation of 12C31P and 13C31P by reactive laser vaporization for rare gas matrix electron spin resonance studies: Comparison with abinitio theoretical calculations
TL;DR: The 12C31P and 13C 31P diatomic radicals have been generated by the laser vaporization reaction between carbon and phosphorus which were pressed into a pellet to form the laser target as discussed by the authors.
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The application of synchrotron radiation and in particular X-ray absorption spectroscopy to matrix isolated species
TL;DR: A comprehensive review of the application of X-ray absorption spectroscopy (XAS, XAFS, EXAFS and XANES) to matrix isolated species can be found in this paper.
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Electron spin resonance and theoretical studies of the PO2 and AsO2 radicals in neon matrices at 4 K: Laser vaporization and x‐irradiation radical generation techniques
TL;DR: In this article, the utilization of high energy generation techniques for trapping ion radicals and other reactive intermediates in neon matrices at 4 K is discussed, and detailed ESR studies of the PO2 and AsO2 radicals, along with ab initio theoretical computations of their nuclear hyperfine interactions, are presented.
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Observation of nuclear spin species conversion inside the 1593 cm−1 structure of H2O trapped in argon matrices: Nitrogen impurities and the H2O:N2 complex
TL;DR: In this article, the authors investigated the 1593 cm−1 structure observed in the IR absorption spectrum of water trapped in solid argon doped with nitrogen and assigned it to the H2O:N2 complex.
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Structure and selective visible photodissociation of the O3:Br2 and O3:BrCl complexes: An infrared matrix isolation and ab initio study
TL;DR: In this paper, Fourier transform infrared spectroscopy was used to investigate the ozone complexes with chlorine, bromine and brominear chloride in argon matrix by Fourier Transform Infrared spectroscopic analysis.