The Resource Modern fourier transform infrared spectroscopy, Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou
Modern fourier transform infrared spectroscopy, Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou
Resource Information
The item Modern fourier transform infrared spectroscopy, Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.This item is available to borrow from 1 library branch.
Resource Information
The item Modern fourier transform infrared spectroscopy, Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.
This item is available to borrow from 1 library branch.
- Extent
- xx, 356 pages
- Contents
-
- Ch. 1. Electromagnetic radiation and the electromagnetic spectrum
- 1.1. Wave nature of electromagnetic radiation
- wave characteristics and wave parameters
- 1.2. Quantum concept and particle nature of electromagnetic radiation
- 1.3. Units of wave parameters
- 1.4. Origin of electromagnetic radiation and electromagnetic spectrum: [gamma]-rays to microwave
- Ch. 2. Interaction of electromagnetic radiation with matter
- 2.1. Absorption of electromagnetic radiation
- 2.2. Presentation of data: a line spectrum
- 2.3. Line broadening in infrared absorption spectrometry
- 2.4. Measured spectra of diatomic molecules
- 2.5. Normal or fundamental vibrations
- 2.6. Infrared spectrum of polyatomic molecules
- Ch. 3. Theory of infrared spectroscopy
- 3.1. Principles of infrared spectroscopy
- 3.2. Characteristics of infrared spectroscopy
- 3.3. Molecular vibrations
- 3.4. A vibration of a diatomic molecule
- 3.5. Quantum mechanical treatment of a vibration of a diatomic molecule
- 3.6. Vibrations of polyatomic molecules
- 3.7. Quantum mechanical treatment of vibrations of polyatomic molecules
- 3.8. Anharmonicity
- 3.9. Overtones and combination modes
- 3.10. Fermi resonance
- Ch. 4. Symmetry of molecules, group theory and its applications in vibrational spectroscopy
- 4.1. Symmetry of molecules: symmetry elements and symmetry operations
- 4.2. Group theory and symmetry operations as elements of a group
- 4.3. Matrix representation of the symmetry operations
- 4.4. Character of the symmetry operations
- 4.5. Classes of operations
- 4.6. Reducible and irreducible representations
- 4.7. Application to molecular vibrations
- 4.8. Examples
- 4.9. Measured vibrational spectra of molecules
- Ch. 5. Group frequencies and assignments of the infrared bands
- 5.1. Group frequencies
- 5.2. Isotope shift
- 5.3. How to make band assignments in infrared spectra
- Ch. 6. Instrumentation
- 6.1. History of infrared instrumentation
- 6.2. Components of an FT-IR spectrometer
- 6.3. Detector noise
- 6.4. Performance of an infrared detector
- 6.5. Other components
- 6.6. Dispersive instruments
- 6.7. Michelson interferometer
- 6.8. Advantages of interferometry
- 6.9. Apodization
- 6.10. Resolution
- 6.11. Phase correction
- 6.13. Effects of mirror misalignment
- 6.14. Fourier transformation and its use in FT-IR instrumentation
- Ch. 7. Sampling techniques and applications
- 7.1. Transmission spectroscopy
- 7.2. Internal and external reflection spectroscopy
- 7.3. Diffuse reflectance spectroscopy
- 7.4. Photoacoustic spectroscopy
- 7.5. TGA/FT-IR
- 7.6. LC/FT-IR
- 7.7. GC/FTIR
- 7.8. SFC/FTIR
- 7.9. Infrared microspectroscopy
- Ch. 8. Applications of infrared spectroscopy in basic and industrial research
- 8.1. Polymer applications
- 8.2. Applications to liquid crystals and liquid crystal polymers
- 8.3. Applications to optically active materials
- 8.4. Applications to infrared microspectroscopy
- 8.5. Applications to industrial process
- 8.6. Applications to organic thin films
- 8.7. Developments in infrared spectroscopy of biological molecules and materials
- Ch. 9. Modern data analytical methods for infrared spectroscopy
- 9.1. Univariate approach in infrared spectroscopy
- 9.2. Multivariate approach in infrared spectroscopy
- 9.3. Principal component analysis (PCA)
- 9.4. Multivariate calibration
- 9.5. Target projections
- 9.6. Data analysis and resolution by alternating least squares
- 9.7. Two-dimensional correlation spectroscopy
- App. I. Physical constants, conversion factors and atomic masses
- App. II. Some character tables and point groups
- App. III. Matrices
- Isbn
- 9780444500441
- Label
- Modern fourier transform infrared spectroscopy
- Title
- Modern fourier transform infrared spectroscopy
- Statement of responsibility
- Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou
- Language
- eng
- Cataloging source
- DLC
- http://library.link/vocab/creatorName
- Christy, Alfred A
- Dewey number
- 543.0858301515723
- Illustrations
- illustrations
- Index
- index present
- LC call number
-
- QD75
- QD96.I5
- LC item number
- .W75 vol. 35
- Literary form
- non fiction
- Nature of contents
- bibliography
- http://library.link/vocab/relatedWorkOrContributorName
-
- Ozaki, Y.
- Gregoriou, Vasilis G
- Series statement
- Wilson & Wilson's comprehensive analytical chemistry,
- Series volume
- v. 35
- http://library.link/vocab/subjectName
- Fourier transform infrared spectroscopy
- Label
- Modern fourier transform infrared spectroscopy, Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou
- Bibliography note
- Includes bibliographical references and index
- Carrier category
- volume
- Carrier category code
-
- nc
- Carrier MARC source
- rdacarrier
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
- Ch. 1. Electromagnetic radiation and the electromagnetic spectrum -- 1.1. Wave nature of electromagnetic radiation -- wave characteristics and wave parameters -- 1.2. Quantum concept and particle nature of electromagnetic radiation -- 1.3. Units of wave parameters -- 1.4. Origin of electromagnetic radiation and electromagnetic spectrum: [gamma]-rays to microwave -- Ch. 2. Interaction of electromagnetic radiation with matter -- 2.1. Absorption of electromagnetic radiation -- 2.2. Presentation of data: a line spectrum -- 2.3. Line broadening in infrared absorption spectrometry -- 2.4. Measured spectra of diatomic molecules -- 2.5. Normal or fundamental vibrations -- 2.6. Infrared spectrum of polyatomic molecules -- Ch. 3. Theory of infrared spectroscopy -- 3.1. Principles of infrared spectroscopy -- 3.2. Characteristics of infrared spectroscopy -- 3.3. Molecular vibrations -- 3.4. A vibration of a diatomic molecule -- 3.5. Quantum mechanical treatment of a vibration of a diatomic molecule -- 3.6. Vibrations of polyatomic molecules -- 3.7. Quantum mechanical treatment of vibrations of polyatomic molecules -- 3.8. Anharmonicity -- 3.9. Overtones and combination modes -- 3.10. Fermi resonance -- Ch. 4. Symmetry of molecules, group theory and its applications in vibrational spectroscopy -- 4.1. Symmetry of molecules: symmetry elements and symmetry operations -- 4.2. Group theory and symmetry operations as elements of a group -- 4.3. Matrix representation of the symmetry operations -- 4.4. Character of the symmetry operations -- 4.5. Classes of operations -- 4.6. Reducible and irreducible representations -- 4.7. Application to molecular vibrations -- 4.8. Examples -- 4.9. Measured vibrational spectra of molecules -- Ch. 5. Group frequencies and assignments of the infrared bands -- 5.1. Group frequencies -- 5.2. Isotope shift -- 5.3. How to make band assignments in infrared spectra -- Ch. 6. Instrumentation -- 6.1. History of infrared instrumentation -- 6.2. Components of an FT-IR spectrometer -- 6.3. Detector noise -- 6.4. Performance of an infrared detector -- 6.5. Other components -- 6.6. Dispersive instruments -- 6.7. Michelson interferometer -- 6.8. Advantages of interferometry -- 6.9. Apodization -- 6.10. Resolution -- 6.11. Phase correction -- 6.13. Effects of mirror misalignment -- 6.14. Fourier transformation and its use in FT-IR instrumentation -- Ch. 7. Sampling techniques and applications -- 7.1. Transmission spectroscopy -- 7.2. Internal and external reflection spectroscopy -- 7.3. Diffuse reflectance spectroscopy -- 7.4. Photoacoustic spectroscopy -- 7.5. TGA/FT-IR -- 7.6. LC/FT-IR -- 7.7. GC/FTIR -- 7.8. SFC/FTIR -- 7.9. Infrared microspectroscopy -- Ch. 8. Applications of infrared spectroscopy in basic and industrial research -- 8.1. Polymer applications -- 8.2. Applications to liquid crystals and liquid crystal polymers -- 8.3. Applications to optically active materials -- 8.4. Applications to infrared microspectroscopy -- 8.5. Applications to industrial process -- 8.6. Applications to organic thin films -- 8.7. Developments in infrared spectroscopy of biological molecules and materials -- Ch. 9. Modern data analytical methods for infrared spectroscopy -- 9.1. Univariate approach in infrared spectroscopy -- 9.2. Multivariate approach in infrared spectroscopy -- 9.3. Principal component analysis (PCA) -- 9.4. Multivariate calibration -- 9.5. Target projections -- 9.6. Data analysis and resolution by alternating least squares -- 9.7. Two-dimensional correlation spectroscopy -- App. I. Physical constants, conversion factors and atomic masses -- App. II. Some character tables and point groups -- App. III. Matrices
- Control code
- 48761769
- Dimensions
- 24 cm
- Extent
- xx, 356 pages
- Isbn
- 9780444500441
- Isbn Type
- (acid-free paper)
- Lccn
- 2002516117
- Media category
- unmediated
- Media MARC source
- rdamedia
- Media type code
-
- n
- Other physical details
- illustrations
- Label
- Modern fourier transform infrared spectroscopy, Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou
- Bibliography note
- Includes bibliographical references and index
- Carrier category
- volume
- Carrier category code
-
- nc
- Carrier MARC source
- rdacarrier
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
- Ch. 1. Electromagnetic radiation and the electromagnetic spectrum -- 1.1. Wave nature of electromagnetic radiation -- wave characteristics and wave parameters -- 1.2. Quantum concept and particle nature of electromagnetic radiation -- 1.3. Units of wave parameters -- 1.4. Origin of electromagnetic radiation and electromagnetic spectrum: [gamma]-rays to microwave -- Ch. 2. Interaction of electromagnetic radiation with matter -- 2.1. Absorption of electromagnetic radiation -- 2.2. Presentation of data: a line spectrum -- 2.3. Line broadening in infrared absorption spectrometry -- 2.4. Measured spectra of diatomic molecules -- 2.5. Normal or fundamental vibrations -- 2.6. Infrared spectrum of polyatomic molecules -- Ch. 3. Theory of infrared spectroscopy -- 3.1. Principles of infrared spectroscopy -- 3.2. Characteristics of infrared spectroscopy -- 3.3. Molecular vibrations -- 3.4. A vibration of a diatomic molecule -- 3.5. Quantum mechanical treatment of a vibration of a diatomic molecule -- 3.6. Vibrations of polyatomic molecules -- 3.7. Quantum mechanical treatment of vibrations of polyatomic molecules -- 3.8. Anharmonicity -- 3.9. Overtones and combination modes -- 3.10. Fermi resonance -- Ch. 4. Symmetry of molecules, group theory and its applications in vibrational spectroscopy -- 4.1. Symmetry of molecules: symmetry elements and symmetry operations -- 4.2. Group theory and symmetry operations as elements of a group -- 4.3. Matrix representation of the symmetry operations -- 4.4. Character of the symmetry operations -- 4.5. Classes of operations -- 4.6. Reducible and irreducible representations -- 4.7. Application to molecular vibrations -- 4.8. Examples -- 4.9. Measured vibrational spectra of molecules -- Ch. 5. Group frequencies and assignments of the infrared bands -- 5.1. Group frequencies -- 5.2. Isotope shift -- 5.3. How to make band assignments in infrared spectra -- Ch. 6. Instrumentation -- 6.1. History of infrared instrumentation -- 6.2. Components of an FT-IR spectrometer -- 6.3. Detector noise -- 6.4. Performance of an infrared detector -- 6.5. Other components -- 6.6. Dispersive instruments -- 6.7. Michelson interferometer -- 6.8. Advantages of interferometry -- 6.9. Apodization -- 6.10. Resolution -- 6.11. Phase correction -- 6.13. Effects of mirror misalignment -- 6.14. Fourier transformation and its use in FT-IR instrumentation -- Ch. 7. Sampling techniques and applications -- 7.1. Transmission spectroscopy -- 7.2. Internal and external reflection spectroscopy -- 7.3. Diffuse reflectance spectroscopy -- 7.4. Photoacoustic spectroscopy -- 7.5. TGA/FT-IR -- 7.6. LC/FT-IR -- 7.7. GC/FTIR -- 7.8. SFC/FTIR -- 7.9. Infrared microspectroscopy -- Ch. 8. Applications of infrared spectroscopy in basic and industrial research -- 8.1. Polymer applications -- 8.2. Applications to liquid crystals and liquid crystal polymers -- 8.3. Applications to optically active materials -- 8.4. Applications to infrared microspectroscopy -- 8.5. Applications to industrial process -- 8.6. Applications to organic thin films -- 8.7. Developments in infrared spectroscopy of biological molecules and materials -- Ch. 9. Modern data analytical methods for infrared spectroscopy -- 9.1. Univariate approach in infrared spectroscopy -- 9.2. Multivariate approach in infrared spectroscopy -- 9.3. Principal component analysis (PCA) -- 9.4. Multivariate calibration -- 9.5. Target projections -- 9.6. Data analysis and resolution by alternating least squares -- 9.7. Two-dimensional correlation spectroscopy -- App. I. Physical constants, conversion factors and atomic masses -- App. II. Some character tables and point groups -- App. III. Matrices
- Control code
- 48761769
- Dimensions
- 24 cm
- Extent
- xx, 356 pages
- Isbn
- 9780444500441
- Isbn Type
- (acid-free paper)
- Lccn
- 2002516117
- Media category
- unmediated
- Media MARC source
- rdamedia
- Media type code
-
- n
- Other physical details
- illustrations
Library Links
Embed
Settings
Select options that apply then copy and paste the RDF/HTML data fragment to include in your application
Embed this data in a secure (HTTPS) page:
Layout options:
Include data citation:
<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.library.mst.edu/portal/Modern-fourier-transform-infrared-spectroscopy/0zNKmrDYIqs/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.library.mst.edu/portal/Modern-fourier-transform-infrared-spectroscopy/0zNKmrDYIqs/">Modern fourier transform infrared spectroscopy, Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.library.mst.edu/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.library.mst.edu/">Missouri University of Science & Technology Library</a></span></span></span></span></div>
Note: Adjust the width and height settings defined in the RDF/HTML code fragment to best match your requirements
Preview
Cite Data - Experimental
Data Citation of the Item Modern fourier transform infrared spectroscopy, Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou
Copy and paste the following RDF/HTML data fragment to cite this resource
<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.library.mst.edu/portal/Modern-fourier-transform-infrared-spectroscopy/0zNKmrDYIqs/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.library.mst.edu/portal/Modern-fourier-transform-infrared-spectroscopy/0zNKmrDYIqs/">Modern fourier transform infrared spectroscopy, Alfred A. Christy, Yukihiro Ozaki, Vasilis G. Gregoriou</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.library.mst.edu/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.library.mst.edu/">Missouri University of Science & Technology Library</a></span></span></span></span></div>
