Kazuo Nakamoto
Infrared and Raman Spectra of Inorganic and Coordination Compounds
Theory and Applications in Inorganic Chemistry
Kazuo Nakamoto
Infrared and Raman Spectra of Inorganic and Coordination Compounds
Theory and Applications in Inorganic Chemistry
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Teil A dieses zweibändigen Werkes führt fortgeschrittene Studenten und Fachleute in Theorie und Grundbegriffe von Infrarot- und Raman-Spektroskopie ein und zeigt anschließend einige wichtige Anwendungen in der anorganischen Chemie. Besonders geeignet ist der Text zum auffrischenden Selbststudium und als Nachschlagewerk.
Teil A dieses zweibändigen Werkes führt fortgeschrittene Studenten und Fachleute in Theorie und Grundbegriffe von Infrarot- und Raman-Spektroskopie ein und zeigt anschließend einige wichtige Anwendungen in der anorganischen Chemie. Besonders geeignet ist der Text zum auffrischenden Selbststudium und als Nachschlagewerk.
Produktdetails
- Produktdetails
- Verlag: Wiley & Sons
- 5th ed.
- Seitenzahl: 388
- Englisch
- Abmessung: 240mm
- Gewicht: 680g
- ISBN-13: 9780471163947
- ISBN-10: 0471163945
- Artikelnr.: 14902815
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
- Verlag: Wiley & Sons
- 5th ed.
- Seitenzahl: 388
- Englisch
- Abmessung: 240mm
- Gewicht: 680g
- ISBN-13: 9780471163947
- ISBN-10: 0471163945
- Artikelnr.: 14902815
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
KAZUO NAKAMOTO is Emeritus Wehr Professor of Chemistry at Marquette University in Milwaukee, Wisconsin.
From the Contents:
- THEORY: Origins of Molecular Spectra
- Origins of Infrared & Raman Spectra
- Vibration of Diatomic Molecules
- Normal Co-ordinates and Normal Vibrations
- Symmetry Element; Symmetry of Normal Vibrations and Selection Rules; Introduction to Group Theory
- The Number of Normal Vibrations for Each Species
- Internal Co-ordinates
- Selection Rules for Infrared and Raman Spectra
- Structure Determination
- Utilization of Symmetry Properties; Potential Fields and Force Constants; Vibrational Frequencies of Isotopic Molecules
- Metal Isotope Spectroscopy
- Group Frequencies and Band Assignments; Intensity and Principles of Raman Spectra; Vibrational Spectra in Gaseous Phase and Inert Gas Matrices
- Symmetry in Crystals
- Vibrational Analysis of Crystals
- Vibrational Analysis of Ceramic Superconductors
- APPLICATIONS IN INORGANIC CHEMISTRY: Diatomic Molecules
- Triatomic Molecules
- Metal Cluster Compounds
- Compounds of Boron
- Carbon; Silicon
- Germanium; Nitrogen
- Phosphorus
- Sulfur and Selenium.Aus dem Inhalt:
THEORY: Origins of Molecular Spectra; Origins of Infrared & Raman Spectra; Vibration of Diatomic Molecules; Normal Co-ordinates and Normal Vibrations; Symmetry Element; Symmetry of Normal Vibrations and Selection Rules; Introduction to Group Theory; The Number of Normal Vibrations for Each Species; Internal Co-ordinates; Selection Rules for Infrared and Raman Spectra; Structure Determination; Utilization of Symmetry Properties; Potential Fields and Force Constants; Vibrational Frequencies of Isotopic Molecules; Metal Isotope Spectroscopy; Group Frequencies and Band Assignments; Intensity and Principles of Raman Spectra; Vibrational Spectra in Gaseous Phase and Inert Gas Matrices; Symmetry in Crystals; Vibrational Analysis of Crystals; Vibrational Analysis of Ceramic Superconductors; APPLICATIONS IN INORGANIC CHEMISTRY: Diatomic Molecules; Triatomic Molecules; Metal Cluster Compounds; Compounds of Boron; Carbon; Silicon; Germanium; Nitrogen; Phosphorus; Sulfur and Selenium.
- THEORY: Origins of Molecular Spectra
- Origins of Infrared & Raman Spectra
- Vibration of Diatomic Molecules
- Normal Co-ordinates and Normal Vibrations
- Symmetry Element; Symmetry of Normal Vibrations and Selection Rules; Introduction to Group Theory
- The Number of Normal Vibrations for Each Species
- Internal Co-ordinates
- Selection Rules for Infrared and Raman Spectra
- Structure Determination
- Utilization of Symmetry Properties; Potential Fields and Force Constants; Vibrational Frequencies of Isotopic Molecules
- Metal Isotope Spectroscopy
- Group Frequencies and Band Assignments; Intensity and Principles of Raman Spectra; Vibrational Spectra in Gaseous Phase and Inert Gas Matrices
- Symmetry in Crystals
- Vibrational Analysis of Crystals
- Vibrational Analysis of Ceramic Superconductors
- APPLICATIONS IN INORGANIC CHEMISTRY: Diatomic Molecules
- Triatomic Molecules
- Metal Cluster Compounds
- Compounds of Boron
- Carbon; Silicon
- Germanium; Nitrogen
- Phosphorus
- Sulfur and Selenium.Aus dem Inhalt:
THEORY: Origins of Molecular Spectra; Origins of Infrared & Raman Spectra; Vibration of Diatomic Molecules; Normal Co-ordinates and Normal Vibrations; Symmetry Element; Symmetry of Normal Vibrations and Selection Rules; Introduction to Group Theory; The Number of Normal Vibrations for Each Species; Internal Co-ordinates; Selection Rules for Infrared and Raman Spectra; Structure Determination; Utilization of Symmetry Properties; Potential Fields and Force Constants; Vibrational Frequencies of Isotopic Molecules; Metal Isotope Spectroscopy; Group Frequencies and Band Assignments; Intensity and Principles of Raman Spectra; Vibrational Spectra in Gaseous Phase and Inert Gas Matrices; Symmetry in Crystals; Vibrational Analysis of Crystals; Vibrational Analysis of Ceramic Superconductors; APPLICATIONS IN INORGANIC CHEMISTRY: Diatomic Molecules; Triatomic Molecules; Metal Cluster Compounds; Compounds of Boron; Carbon; Silicon; Germanium; Nitrogen; Phosphorus; Sulfur and Selenium.
From the Contents:
- THEORY: Origins of Molecular Spectra
- Origins of Infrared & Raman Spectra
- Vibration of Diatomic Molecules
- Normal Co-ordinates and Normal Vibrations
- Symmetry Element; Symmetry of Normal Vibrations and Selection Rules; Introduction to Group Theory
- The Number of Normal Vibrations for Each Species
- Internal Co-ordinates
- Selection Rules for Infrared and Raman Spectra
- Structure Determination
- Utilization of Symmetry Properties; Potential Fields and Force Constants; Vibrational Frequencies of Isotopic Molecules
- Metal Isotope Spectroscopy
- Group Frequencies and Band Assignments; Intensity and Principles of Raman Spectra; Vibrational Spectra in Gaseous Phase and Inert Gas Matrices
- Symmetry in Crystals
- Vibrational Analysis of Crystals
- Vibrational Analysis of Ceramic Superconductors
- APPLICATIONS IN INORGANIC CHEMISTRY: Diatomic Molecules
- Triatomic Molecules
- Metal Cluster Compounds
- Compounds of Boron
- Carbon; Silicon
- Germanium; Nitrogen
- Phosphorus
- Sulfur and Selenium.Aus dem Inhalt:
THEORY: Origins of Molecular Spectra; Origins of Infrared & Raman Spectra; Vibration of Diatomic Molecules; Normal Co-ordinates and Normal Vibrations; Symmetry Element; Symmetry of Normal Vibrations and Selection Rules; Introduction to Group Theory; The Number of Normal Vibrations for Each Species; Internal Co-ordinates; Selection Rules for Infrared and Raman Spectra; Structure Determination; Utilization of Symmetry Properties; Potential Fields and Force Constants; Vibrational Frequencies of Isotopic Molecules; Metal Isotope Spectroscopy; Group Frequencies and Band Assignments; Intensity and Principles of Raman Spectra; Vibrational Spectra in Gaseous Phase and Inert Gas Matrices; Symmetry in Crystals; Vibrational Analysis of Crystals; Vibrational Analysis of Ceramic Superconductors; APPLICATIONS IN INORGANIC CHEMISTRY: Diatomic Molecules; Triatomic Molecules; Metal Cluster Compounds; Compounds of Boron; Carbon; Silicon; Germanium; Nitrogen; Phosphorus; Sulfur and Selenium.
- THEORY: Origins of Molecular Spectra
- Origins of Infrared & Raman Spectra
- Vibration of Diatomic Molecules
- Normal Co-ordinates and Normal Vibrations
- Symmetry Element; Symmetry of Normal Vibrations and Selection Rules; Introduction to Group Theory
- The Number of Normal Vibrations for Each Species
- Internal Co-ordinates
- Selection Rules for Infrared and Raman Spectra
- Structure Determination
- Utilization of Symmetry Properties; Potential Fields and Force Constants; Vibrational Frequencies of Isotopic Molecules
- Metal Isotope Spectroscopy
- Group Frequencies and Band Assignments; Intensity and Principles of Raman Spectra; Vibrational Spectra in Gaseous Phase and Inert Gas Matrices
- Symmetry in Crystals
- Vibrational Analysis of Crystals
- Vibrational Analysis of Ceramic Superconductors
- APPLICATIONS IN INORGANIC CHEMISTRY: Diatomic Molecules
- Triatomic Molecules
- Metal Cluster Compounds
- Compounds of Boron
- Carbon; Silicon
- Germanium; Nitrogen
- Phosphorus
- Sulfur and Selenium.Aus dem Inhalt:
THEORY: Origins of Molecular Spectra; Origins of Infrared & Raman Spectra; Vibration of Diatomic Molecules; Normal Co-ordinates and Normal Vibrations; Symmetry Element; Symmetry of Normal Vibrations and Selection Rules; Introduction to Group Theory; The Number of Normal Vibrations for Each Species; Internal Co-ordinates; Selection Rules for Infrared and Raman Spectra; Structure Determination; Utilization of Symmetry Properties; Potential Fields and Force Constants; Vibrational Frequencies of Isotopic Molecules; Metal Isotope Spectroscopy; Group Frequencies and Band Assignments; Intensity and Principles of Raman Spectra; Vibrational Spectra in Gaseous Phase and Inert Gas Matrices; Symmetry in Crystals; Vibrational Analysis of Crystals; Vibrational Analysis of Ceramic Superconductors; APPLICATIONS IN INORGANIC CHEMISTRY: Diatomic Molecules; Triatomic Molecules; Metal Cluster Compounds; Compounds of Boron; Carbon; Silicon; Germanium; Nitrogen; Phosphorus; Sulfur and Selenium.