Key Features
@introbul:Key Features
@bul:* Explains why it is advantageous to obtain vibrational data under different physical phases
* Compiles many vibrational studies into a single compendium
* Lists group frequencies in different physical phases
* Reveals that some group frequencies are more affected than others by changes in the physical phase
* Demonstrates that in-phase and out-of-phase vibrations of the same functional group are not equally affected
* Describes how solute-solvent complexes differ with changes in the solvent system
* Shows that the amount of Fermi resonance between a fundamental vibration and a combination or overtone is altered with change of physical phase
* Written by an internationally recognized expert
Description
This book teaches the analyst why it is advantageous to obtain vibrational data under different physical phases. Molecular vibrations are affected by change in physical phase, and knowledge of how certain molecular vibrations are affected by change in the chemical environment improves the analyst's ability to solve complex chemical problems.
This book is invaluable for students and scientists engaged in analytical and organic chemistry, since application of IR and Raman spectroscopy is essential in identifying and verifying molecular structure.
This reference provides analysts with information that enables them to acquire the maximum amount of information when sampling molecular vibrations via IR and Raman spectroscopy.
Readership
Spectroscopists, analytical and organic chemists, chemical physicists, both in academia and especially industry.
Interpreting Infrared, Raman, and Nuclear Magnetic Resonance Spectra, 1st Edition
Volume 1:
Theory of Vibrational Spectroscopy
Experimental
Alkyl Carbon-Hydrogen Vibrations
Alkenes and Other Compounds Containing C=C Double Bonds
Alkynes and Compounds Containing C=C Groups
Carboxamides, Ureas, Thioureas,
Imidazolidinones, Caffeine, Isocaffeine, Uracils,
Imides, Hydantoins, and s-Triazine (1H, 3H, 5H)-
Triones
Aldehydes
Ketones
Carboxylic Acid Esters
Organic Carbonates, Thiol Carbonates, Chloroformates, Thiol Chloroformates, Acetyl
Chloride, Benzoyl Chloride, Carbamates, and an
Overview of Solute-Solvent Effects Upon Carbonyl Stretching Frequencies
Volume 2:
Epoxides and Ethers
Nitriles, Isonitriles, and Dialkyl Cyanamides
Azines, Isocyanates, Isothiocyanates, and
Carbodiimides
Thiols, Sulfides and Disulfides, Alkanethiols, and
Alkanedithiols (S--H stretching)
Sulfoxides, Sulfones, Sulfates, Monothiosulfates,
Sulfonyl Halides, Sulfites, Sulfonamides,
Sulfonates, and N-Sulfinyl Anilines
Halogenated Hydrocarbons
Nitroalkanes, Nitrobenzenes, Alkyl Nitrates,
Alkyl Nitrites, and Nitrosamines
Phosphorus Compounds
Benzene and Its Derivatives
The Nyquist Vibrational Group Frequency Rule
Infrared Raman and Nuclear Magnetic Resonance
(NMR) Spectra-Structure Correlations for Organic
Compounds
Quotes and reviews
@tease:Awarded for Excellence in Professional & Scholarly Publishing, by the Association of American Publishers, 2001, Chemistry
@qu:"Nyquist's two-volume set on the interpretation of IR, Raman, and NMR spectra includes emphasis on how the spectra are affected by the physical environment (solid, liquid, vapor, solution). ...packed with tables and graphs of vibrational frequencies and spectra. Highly recommended as a reference work and a handbook of data. Graduate students through professionals."
@source:--CHOICE, October 2001
