Introduction to Infrared and Raman Spectroscopy
- 2nd Edition - November 10, 2012
- Author: Norman Colthup
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 3 9 4 1 6 8 - 8
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 1 6 1 6 0 - 2
Introduction to Infrared and Raman Spectroscopy focuses on the theoretical and experimental aspects of infrared and Raman spectroscopy, with emphasis on detailed group frequency… Read more
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Request a sales quoteIntroduction to Infrared and Raman Spectroscopy focuses on the theoretical and experimental aspects of infrared and Raman spectroscopy, with emphasis on detailed group frequency correlations and their vibrational origin. Topics covered include vibrational and rotational spectra, molecular symmetry, methyl and methylene groups, triple bonds and cumulated double bonds, and olefin groups. Aromatic and heteroaromatic rings are also considered, along with carbonyl compounds and molecular vibrations. This book is comprised of 14 chapters and begins with a discussion on the use of Raman and infrared spectroscopy to study the vibrational and rotational frequencies of molecules, paying particular attention to photon energy and degrees of freedom of molecular motion. The quantum mechanical harmonic oscillator and the anharmonic oscillator are described. The next chapter focuses on the experimental techniques and instrumentation needed to measure infrared absorption spectra and Raman spectra. Symmetry is then discussed from the standpoint of the spectroscopist. The following chapters explore the vibrational origin of group frequencies, with an emphasis on mechanical effects; spectra-structure correlations; and the spectra of compounds such as ethers, alcohols, and phenols. The final chapter demonstrates how the frequencies and forms of a nonlinear molecule's normal modes of vibration may be calculated mathematically. This monograph will be a useful resource for spectroscopists and physical scientists.
Preface
Chapter I Vibrational and Rotational Spectra
1.1 Introduction
1.2 Photon Energy
1.3 Degrees of Freedom of Molecular Motion
1.4 Normal Modes of Vibration
1.5 Mechanical Molecular Models
1.6 Coordinates Used to Describe Molecular Vibrations
1.7 Classical Vibrational Frequency Formula for Diatomic Molecule
1.8 Infrared Absorption and the Change in Dipole Moment
1.9 Anharmonicity and Overtones
1.10 Vibrational Potential Function
1.11 Introduction to the Quantum Effect
1.12 The Quantum Mechanical Harmonic Oscillator
1.13 The Boltzmann Distribution Function
1.14 Vibrational Transitions and Infrared Absorption
1.15 The Anharmonic Oscillator
1.16 Combination and Difference Bands
1.17 Fermi Resonance
1.18 Rotation of Linear Molecules
1.19 Rotational Transitions and Infrared Absorption
1.20 The Non Rigid Rotator
1.21 Rotational Line Intensities
1.22 Types of Rotators
1.23 Rotation of Symmetric Top Molecules
1.24 Vibrational-Rotational Spectrum, Classical Picture
1.25 Vibrational-Rotational Spectrum, Quantum Mechanical Treatment
1.26 Vibrational-Rotational Spectrum Non Rigid Rotator
1.27 Spherical Top Molecules
1.28 Symmetrical Top Molecules
1.29 Asymmetrical Top Molecules
1.30 The Raman Effect
1.31 Polarizability
1.32 The Tensor Character of the Polarizability
1.33 Depolarization Ratio
1.34 Pure Rotational Raman Spectra
Chapter 2 Experimental Considerations
2.1 Source of Infrared Radiation
2.2 Infrared Monochromators and Filters
2.3 Infrared Detectors
2.4 Commercial Instruments
2.5 Instrument Calibration
2.6 Sample Handling Techniques
2.7 Quantitative Analysis
2.8 Polarized Infrared Radiation
2.9 Infrared Fourier Transform Spectroscopy
2.10 Raman Sources
2.11 Raman Spectrographs
2.12 Raman Measurements
Chapter 3 Molecular Symmetry
3.1 Symmetry Properties
3.2 Point Groups
3.3 Group Theory
3.4 Group Theory Applied to Point Groups
3.5 Representations of Groups
3.6 Irreducible Representations
3.7 The Character Table
3.8 Irreducible Representation Components in a Representation
3.9 Transformation Properties of a Vector
3.10 The Number of Fundamentals of Each Type
3.11 Selection Rules
3.12 Infrared Activity of Fundamentals
3.13 Raman Activity of Fundamentals
3.14 Overtone and Combination Bands
3.15 Symmetry Coordinates
3.16 Isotope Effects and the Product Rule
3.17 Character Tables and Selection Rules
Chapter 4 The Vibrational Origin of Group Frequencies
4.1 Introduction
4.2 Diatomic Oscillators
4.3 Coupled Oscillators
4.4 Unsymmetrical Coupled Oscillators
4.5 X-H Stretching Frequencies
4.6 Triple Bond Vibrations
4.7 Cumulated Double Bonds
4.8 The Linear M1-M2-M3 Model
4.9 X-C ≡ N Compounds
4.10 Carbonyl and C=C Compounds
4.11 Cyclic Compound Stretching Vibrations
4.12 The Bent M1-M2-M1, Stretching Frequencies
4.13 Noncyclic Single Bond Vibrations
4.14 Bend-Bend Interaction
4.15 Bend Stretch Interaction
4.16 Multiple Oscillator Groups
4.17 Interaction Force Constant Effects
4.18 Hydrogen Bonding
Chapter 5 Methyl and Methylene Groups
5.1 Introduction to Group Frequencies
5.2 Methyl Groups
5.3 CH3 Stretching Vibrations
5.4 CH3 Deformation Vibrations
5.5 CH3 Rock Vibrations
5.6 Methylene Groups
5.7 CH2 Stretching Vibrations
5.8 CH2 Deformation Vibrations
5.9 CH2 Wag Vibrations
5.10 CH2 Rock Vibrations
5.11 CH2 Twisting Vibrations
5.12 CH2 in Cyclic Compounds
5.13 Carbon-Hydrogen Group
Chapter 6 Triple Bonds and Cumulated Double Bonds
6.1 Introduction
6.2 Monosubstituted Acetylenes
6.3 Disubstituted Acetylenes
6.4 Aliènes
6.5 Nitriles
6.6 Nitrile N-Oxides and Complexes
6.7 Cyanates
6.8 Isocyanates
6.9 Thiocyanates
6.10 Isothiocyanates
6.11 Nitriles on a Nitrogen Atom
6.12 Carbodiimides
6.13 Ketene Imines
6.14 Diazo Compounds
6.15 Azides
6.16 Aryl Diazonium Salts
6.17 Isocyanides
6.18 Ketenes
6.19 Cyanide Ions
6.20 Cyanate Ions
6.21 Thiocyanate Ions
6.22 Metal Carbonyls
6.23 Three and Four Cumulated Double Bonds
Chapter 7 Olefin Groups
7.1 Non Cyclic Olefins
7.2 Olefinic Hydrogen Wagging Vibrations
7.3 Cyclic C=C
Chapter 8 Aromatic and Heteroaromatic Rings
8.1 Benzene Rings
8.2 The Carbon-Carbon Vibrations
8.3 The 1600cm-1 Region
8.4 The 1500cm-1 Region
8.5 The 700cm-1 Region
8.6 The 900-700cm-1 CH Wag Bands
8.7 The 2000-1650cm-1 Summation Bands
8.8 The 1300-1000cm-1 Region
8.9 The 850-600cm-1 Region
8.10 The 550-400cm-1 Region
8.11 Condensed Ring Aromatic Compounds
8.12 Pyridines
8.13 Pyridine N-Oxides
8.14 Pyrimidines
8.15 Triazines
8.16 Alkyl- or Aryl-Substituted Triazines
8.17 Melamines and Guanamines
8.18 Chloro-, Oxy-, and Thio-substituted Triazines
8.19 Tetrazines
8.20 Heteroaromatic Five-Membered Ring Compounds
8.21 Cyclopentadienyl Ring-Metal Complexes
Chapter 9 Carbonyl Compounds
9.1 Introduction
9.2 Mass Effects
9.3 Bond Angle Effects
9.4 Inductive Effects
9.5 Mesomeric Effects
9.6 Ketones
9.7 α-Chloro Ketones
9.8 Conjugated Ketones
9.9 Conjugated Hydrogen Bonded Ketones
9.10 Bond Angle Effects in Ketones
9.11 Aldehyde CH Vibrations
9.12 Aldehyde Carbonyl Vibrations
9.13 Aldehyde C—C
9.14 Ester C=O
9.15 Ester C—O
9.16 Out-of-Plane Hydrogen Vibrations in Unsaturated Esters
9.17 Groups Next to the Carbonyl in Esters
9.18 Groups on the Oxygen Atoms in Esters
9.19 Lactones
9.20 Thiol Esters and Related Compounds
9.21 Organic Carbonate Derivatives and Related Compounds
9.22 Oxalates
9.23 Anhydrides
9.24 Peroxides, Acyl or Aroyl
9.25 Halogen-Substituted Carbonyls
9.26 Carboxylic Acid OH Stretch
9.27 Carboxyl-Carbonyl Stretch
9.28 Carboxyl OH Bending and C—O Stretching
9.29 Monomeric Acids
9.30 Aliphatic Peroxy Acids
9.31 Aromatic Acids
9.32 Aliphatic Bands in Long Chain n-Aliphatic Carboxylic Acids, Ester, and Soaps
9.33 Carboxyl Salts
9.34 Amino Acids
9.35 Amido Acids
9.36 Unsubstituted Amides
9.37 TV-Substituted Amides (trans)
9.38 N-Substituted Amides (cis) (Lactams)
9.39 Disubstituted Amides
9.40 Ureas
9.41 Carbamates
9.42 Hydroxamic Acids
9.43 Imides
9.44 Isocyanurates
9.45 Acid Hydrazides
Chapter 10 Ethers, Alcohols, and Phenols
10.1 Aliphatic Ethers
10.2 Aromatic Ethers
10.3 Vinyl Ethers
10.4 Cyclic Ether Linkages
10.5 Oxirane Ring Compounds
10.6 OH Stretch in Alcohols and Phenols
10.7 C—O Stretch
10.8 OH Deformation
10.9 Phenols
10.10 Non Cyclic Acetals and Related Compounds
10.11 Cyclic Acetals
10.12 Carbohydrates
10.13 Peroxides
Chapter 11 Amines, C=N, and N=O Compounds
11.1 NH2 Stretch in Amines
11.2 NH2 Deformation in Amines
11.3 NH
11.4 C—N in Aliphatic Amines
11.5 C—N in Aromatic Amines
11.6 Aliphatic Bands in Amines
11.7 The Ammonium Ion
11.8 Amine Salts
11.9 C=N Groups
11.10 Nitro Group
11.11 Organic Nitrates
11.12 Nitramines
11.13 Organic Nitrates
11.14 Inorganic Nitrates and Nitrites
11.15 N=N Azo
11.16 Azoxy and Azothio Groups
11.17 C-Nitroso Compounds
11.18 Nitrosamines
Chapter 12 Compounds, Containing Boron, Silicon, Phosphorus, Sulfur, or Halogen
12.1 Boron Compounds
12.2 B—O
12.3 B—OH
12.4 B—N
12.5 B—H
12.6 B—Cl
12.7 B—CH3
12.8 B-Phenyl
12.9 Silicon Compounds
12.10 Si—H
12.11 Si—CH3
12.12 Si—CH2—R
12.13 Si—C6H5
12.14 Si—CH=CH2
12.15 Si—O—R
12.16 Si—O—C6H5
12.17 Si—O—S i
12.18 Si—OH
12.19 Si—Halogen
12.20 Si—N
12.21 Phosphorus Compounds
12.22 P—H
12.23 PO
12.24 P—OH
12.25 P—O—P
12.26 PO2—, POS—, PO32—, PO43—
12.27 P—O—C (Aliphatic)
12.28 P—O—C (Phenyl)
12.29 P—CH2
12.30 P—CH3
12.31 P—Phenyl
12.32 P=S
12.33 P—SH
12.34 P—N
12.35 P=N
12.36 P—F, P—Cl, P—C
12.37 S—H
12.38 Sulfides and Disulfides
12.39 CH2—S
12.40 CH3—S
12.41 S—CH=CH2
12.42 S—Aryl
12.43 S—F
12.44 SO
12.45 SO2
12.46 Sulfones
12.47 Sulfonamides
12.48 Sulfonic Acids
12.49 Sulfonic Acid Salts
12.50 Sulfinic Acids
12.51 HSO4 -
12.52 SO42—
12.53 SO32—
12.54 S—O—CH2
12.55 Thionylamine
12.56 C=S
12.57 (FHF)-
12.58 FCH
12.59 FC=C
12.60 FC=O
12.61 F—Aryl
12.62 CF Stretch
12.63 C—Cl
12.64 C—Br
12.65 C—I
12.66 Aryl Halides
12.67 Organometallic Compounds
Chapter 13 Major Spectra-Structure Correlations by Spectral Regions
13.1 Introduction
13.2 3700-3100cm-1 (OH, NH, and≡CH)
13.3 3100-3000cm-1 (Aryl, Olefinic, and Three-Membered Ring CH)
13.4 3000-2700cm-1' (Aliphatic CH)
13.5 3100-2400cm-1 (Acidic and Strongly Bonded Hydrogens)
13.6 2600-2100cm-1 (SH,BH,PH,and SiH)
13.7 2300-1900cm-1 (X=Y and X=Y=Z)
13.8 2000-1700cm-1 (Aryl and Olefinic Overtones)
13.9 1900-1550cm-1 (C=O)
13.10 1700-1550cm-1(C=C and C=N)
13.11 600-1450cm-1 (N=O)
13.12 1660-1500cm-1 (NH2, NH3+, and CNH)
13.13 1620-1420cm-1(Aromatic and Heteroaromatic Rings)
13.14 1500-1250cm-1 (CH3 and CH2)
13.15 1470-1310cm-1 (B—O, B—N, NO3-, CO32-, and NH4-)
13.16 1400-1000cm-1 (SO2, SO3-, SO, and SO42-)
13.17 1300-1140cm-1 (P=O)
13.18 1350-1120cm-1 ( CF3 and CF2 )
13.19 1350-1150cm-1( CH2 and CH Wag)
13.20 1300-1000cm-1 (C—O)
13.21 1100-830cm-1 (Si—O and P—O)
13.22 1000-600cm-1 (Olefinic CH Wag)
13.23 900-700cm-1 (Aromatic CH Wag)
13.24 830-500cm-1 (CCI, CBr, snd Cl)
13.25 Near Infrared Region Correlation Chart
13.26 Carbon-Hydrogen Stretching Region Correlation Chart
13.27 Sodium Chloride Region Correlation Charts
13.28 Low Frequency Infrared Region
13.29 Selected Infrared Spectra Illustrating Functional Group Frequencies
13.30 Selected Raman Spectra
Chapter 14 The Theoretical Analysis of Molecular Vibrations
14.1 Normal Modes of Vibration
14.2 The Linear Triatomic Model's Stretching Frequencies
14.3 Internal Coordinates
14.4 Vibrational Solution Using Internal Coordinates
14.5 The G Matrix
14.6 The L Matrix
14.7 Normal Coordinates
14.8 Potential Energy Distribution
14.9 The Form of the Normal Coordinates
14.10 Symmetry Coordinates
14.11 The CHCI3 Molecule
14.12 The Internal Coordinates for CHCI3
14.13 The Symmetry Coordinates for CHCI3
14.14 The G Matrix for CHCI3
14.15 The F Matrix for CHCI3
14.16 The Secular Determinants for CHCI3
14.17 The Frequencies of the CDCI3 Molecules
14.18 Comparison of Experimental and Calculated Wavenumbers
14.19 The Form of the Chloroform Normal Coordinates
14.20 The Potential Function Problem
14.21 A Review of Matrix Notation
14.22 The Normal Coordinate Problem in Matrix Form
Index
- No. of pages: 536
- Language: English
- Edition: 2
- Published: November 10, 2012
- Imprint: Academic Press
- Paperback ISBN: 9780123941688
- eBook ISBN: 9780323161602
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