High-Resolution Spectroscopy of Transient Molecules [electronic resource] /

High-Resolution Spectroscopy of Transient Molecules [electronic resource] /

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It is a great challenge in chemistry to clarify every detail of reaction processes. In older days chemists mixed starting materials in a flask and took the resul­ tants out of it after a while, leaving all the intermediate steps uncleared as a sort of black box. One had to be content with only changing temperature and pressure to accelerate or decelerate chemical reactions, and there was almost no hope of initiating new reactions. However, a number of new techniques and new methods have been introduced and have provided us with a clue to the examination of the black box of chemical reaction. Flash photolysis, which was invented in the 1950s, is such an example; this method has been combined with high-resolution electronic spectroscopy with photographic recording of the spectra to provide a large amount of precise and detailed data on transient molecules which occur as intermediates during the course of chemical reac­ tions. In 1960 a fundamentally new light source was devised, i. e. , the laser. When the present author and coworkers started high-resolution spectroscopic stud­ ies of transient molecules at a new research institute, the Institute for Molecu­ lar Science in Okazaki in 1975, the time was right to exploit this new light source and its microwave precursor in order to shed light on the black box.

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Bibliographic Details
Main Authors: Hirota, Eizi. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Berlin, Heidelberg : Springer Berlin Heidelberg, 1985
Subjects:Chemistry., Spectroscopy., Physical chemistry., Atoms., Physics., Microscopy., Spectroscopy/Spectrometry., Spectroscopy and Microscopy., Atomic, Molecular, Optical and Plasma Physics., Physical Chemistry.,
Online Access:http://dx.doi.org/10.1007/978-3-642-82477-7
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id KOHA-OAI-TEST:184980
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Chemistry.
Spectroscopy.
Physical chemistry.
Atoms.
Physics.
Microscopy.
Chemistry.
Spectroscopy/Spectrometry.
Spectroscopy and Microscopy.
Atomic, Molecular, Optical and Plasma Physics.
Physical Chemistry.
Chemistry.
Spectroscopy.
Physical chemistry.
Atoms.
Physics.
Microscopy.
Chemistry.
Spectroscopy/Spectrometry.
Spectroscopy and Microscopy.
Atomic, Molecular, Optical and Plasma Physics.
Physical Chemistry.
spellingShingle Chemistry.
Spectroscopy.
Physical chemistry.
Atoms.
Physics.
Microscopy.
Chemistry.
Spectroscopy/Spectrometry.
Spectroscopy and Microscopy.
Atomic, Molecular, Optical and Plasma Physics.
Physical Chemistry.
Chemistry.
Spectroscopy.
Physical chemistry.
Atoms.
Physics.
Microscopy.
Chemistry.
Spectroscopy/Spectrometry.
Spectroscopy and Microscopy.
Atomic, Molecular, Optical and Plasma Physics.
Physical Chemistry.
Hirota, Eizi. author.
SpringerLink (Online service)
High-Resolution Spectroscopy of Transient Molecules [electronic resource] /
description It is a great challenge in chemistry to clarify every detail of reaction processes. In older days chemists mixed starting materials in a flask and took the resul­ tants out of it after a while, leaving all the intermediate steps uncleared as a sort of black box. One had to be content with only changing temperature and pressure to accelerate or decelerate chemical reactions, and there was almost no hope of initiating new reactions. However, a number of new techniques and new methods have been introduced and have provided us with a clue to the examination of the black box of chemical reaction. Flash photolysis, which was invented in the 1950s, is such an example; this method has been combined with high-resolution electronic spectroscopy with photographic recording of the spectra to provide a large amount of precise and detailed data on transient molecules which occur as intermediates during the course of chemical reac­ tions. In 1960 a fundamentally new light source was devised, i. e. , the laser. When the present author and coworkers started high-resolution spectroscopic stud­ ies of transient molecules at a new research institute, the Institute for Molecu­ lar Science in Okazaki in 1975, the time was right to exploit this new light source and its microwave precursor in order to shed light on the black box.
format Texto
topic_facet Chemistry.
Spectroscopy.
Physical chemistry.
Atoms.
Physics.
Microscopy.
Chemistry.
Spectroscopy/Spectrometry.
Spectroscopy and Microscopy.
Atomic, Molecular, Optical and Plasma Physics.
Physical Chemistry.
author Hirota, Eizi. author.
SpringerLink (Online service)
author_facet Hirota, Eizi. author.
SpringerLink (Online service)
author_sort Hirota, Eizi. author.
title High-Resolution Spectroscopy of Transient Molecules [electronic resource] /
title_short High-Resolution Spectroscopy of Transient Molecules [electronic resource] /
title_full High-Resolution Spectroscopy of Transient Molecules [electronic resource] /
title_fullStr High-Resolution Spectroscopy of Transient Molecules [electronic resource] /
title_full_unstemmed High-Resolution Spectroscopy of Transient Molecules [electronic resource] /
title_sort high-resolution spectroscopy of transient molecules [electronic resource] /
publisher Berlin, Heidelberg : Springer Berlin Heidelberg,
publishDate 1985
url http://dx.doi.org/10.1007/978-3-642-82477-7
work_keys_str_mv AT hirotaeiziauthor highresolutionspectroscopyoftransientmoleculeselectronicresource
AT springerlinkonlineservice highresolutionspectroscopyoftransientmoleculeselectronicresource
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spelling KOHA-OAI-TEST:1849802018-07-30T23:06:58ZHigh-Resolution Spectroscopy of Transient Molecules [electronic resource] / Hirota, Eizi. author. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg,1985.engIt is a great challenge in chemistry to clarify every detail of reaction processes. In older days chemists mixed starting materials in a flask and took the resul­ tants out of it after a while, leaving all the intermediate steps uncleared as a sort of black box. One had to be content with only changing temperature and pressure to accelerate or decelerate chemical reactions, and there was almost no hope of initiating new reactions. However, a number of new techniques and new methods have been introduced and have provided us with a clue to the examination of the black box of chemical reaction. Flash photolysis, which was invented in the 1950s, is such an example; this method has been combined with high-resolution electronic spectroscopy with photographic recording of the spectra to provide a large amount of precise and detailed data on transient molecules which occur as intermediates during the course of chemical reac­ tions. In 1960 a fundamentally new light source was devised, i. e. , the laser. When the present author and coworkers started high-resolution spectroscopic stud­ ies of transient molecules at a new research institute, the Institute for Molecu­ lar Science in Okazaki in 1975, the time was right to exploit this new light source and its microwave precursor in order to shed light on the black box.1. Introduction -- 1.1 Historical Background of Free Radical Studies by High-Resolution Spectroscopy -- 1.2 Significance of High-Resolution Spectra of Transient Molecules -- 2. Theoretical Aspects of High-Resolution Molecular Spectra -- 2.1 Molecular Rotation -- 2.2 Vibration-Rotation Interaction -- 2.3 Fine and Hyperfine Structures -- 2.4 Vibronic Interaction Including the Renner-Teller Effect -- 2.5 Zeeman and Stark Effects -- 3. Experimental Details -- 3.1 Microwave Spectrometer -- 3.2 Infrared Laser Spectrometers -- 3.3 Dye Laser Spectroscopic System -- 3.4 Double Resonance Spectroscopy -- 3.5 Generation of Transient Molecules -- 4. Individual Molecules -- 4.1 Diatomic Free Radicals -- 4.2 Linear Polyatomic Molecules -- 4.3 Nonlinear XY2- and XYZ-Type Triatomic Free Radicals -- 4.4 Symmetric Top and Other Polyatomic Free Radicals -- 4.5 Fine and Hyperfme Interactions in Free Radicals -- 4.6 Molecules in Metastable Electronic States -- 5. Applications and Future Prospects -- 5.1 Applications to Chemical Reactions -- 5.2 Applications to Atmospheric Chemistry -- 5.3 Applications to Astronomy -- 5.4 Future Developments -- References.It is a great challenge in chemistry to clarify every detail of reaction processes. In older days chemists mixed starting materials in a flask and took the resul­ tants out of it after a while, leaving all the intermediate steps uncleared as a sort of black box. One had to be content with only changing temperature and pressure to accelerate or decelerate chemical reactions, and there was almost no hope of initiating new reactions. However, a number of new techniques and new methods have been introduced and have provided us with a clue to the examination of the black box of chemical reaction. Flash photolysis, which was invented in the 1950s, is such an example; this method has been combined with high-resolution electronic spectroscopy with photographic recording of the spectra to provide a large amount of precise and detailed data on transient molecules which occur as intermediates during the course of chemical reac­ tions. In 1960 a fundamentally new light source was devised, i. e. , the laser. When the present author and coworkers started high-resolution spectroscopic stud­ ies of transient molecules at a new research institute, the Institute for Molecu­ lar Science in Okazaki in 1975, the time was right to exploit this new light source and its microwave precursor in order to shed light on the black box.Chemistry.Spectroscopy.Physical chemistry.Atoms.Physics.Microscopy.Chemistry.Spectroscopy/Spectrometry.Spectroscopy and Microscopy.Atomic, Molecular, Optical and Plasma Physics.Physical Chemistry.Springer eBookshttp://dx.doi.org/10.1007/978-3-642-82477-7URN:ISBN:9783642824777

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