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This book is intended to provide a course of infrared spectroscopy for quantitative analysis, covering both bulk matter and surface/interface analyses. Although the technology of Fourier transform infrared (FT-IR) spectroscopy was established many years ago, the full potential of infrared spectroscopy has not been properly recognized, and its intrinsic potential is still put aside. FT-IR has outstandingly useful characteristics, however, represented by the high sensitivity for monolayer analysis, highly reliable quantitativity, and reproducibility, which are quite suitable for surface and…mehr
This book is intended to provide a course of infrared spectroscopy for quantitative analysis, covering both bulk matter and surface/interface analyses. Although the technology of Fourier transform infrared (FT-IR) spectroscopy was established many years ago, the full potential of infrared spectroscopy has not been properly recognized, and its intrinsic potential is still put aside. FT-IR has outstandingly useful characteristics, however, represented by the high sensitivity for monolayer analysis, highly reliable quantitativity, and reproducibility, which are quite suitable for surface and interface analysis. Because infrared spectroscopy provides rich chemical information—for example, hydrogen bonding, molecular conformation, orientation, aggregation, and crystallinity—FT-IR should be the first choice of chemical analysis in a laboratory. In this book, various analytical techniques and basic knowledge of infrared spectroscopy are described in a uniform manner. In particular, techniquesfor quantitative understanding are particularly focused for the reader’s convenience.
Prof. Takeshi Hasegawa (Kyoto University) 2015 Academic Prize, Chemical Society of Japan 2013 JAIMA Award for Development of Analytical Instrument 2009 The Clara Craver Award, Coblentz Society 2007 Yamazaki-Teiichi Prize 2005 Masao Horiba Awards 2001 Young Scientist Award, Japanese Society for Analytical Chemistry 2001 Young Investigator Award, Spectroscopical Society of Japan
Inhaltsangabe
Infrared spectroscopy as a vibrational spectroscopy.- Normal modes.- Light absorption by a molecule: 1. Understanding by quantum mechanical approach.- Selection rule of IR spectroscopy.- Light absorption by a molecule: 2. Understanding by electrodynamical approach.- Fundamentals of FT-IR.- Two representations of spectra: Time- and frequency-domain representations.- Fourier transform relationship.- Introduction of Michaelson interferometer.- Representative detectors.- Sampling techniques.- Surface analysis using FT-IR.- Boundary conditions in electrodynamics.- Thin-film approximation.- Surface selection rules for surface spectroscopies.- Chemometrics for FT-IR.- Limitation of Beer’s law.- Expansion of Beer’s law: CLS regression.- Inverse Beer’s law: ILS regression.- Mathematical expansion of CLS: PCA.- Merge of ILS and PCA: PCR.- Independent residual terms: PLS.
Infrared spectroscopy as a vibrational spectroscopy.- Normal modes.- Light absorption by a molecule: 1. Understanding by quantum mechanical approach.- Selection rule of IR spectroscopy.- Light absorption by a molecule: 2. Understanding by electrodynamical approach.- Fundamentals of FT-IR.- Two representations of spectra: Time- and frequency-domain representations.- Fourier transform relationship.- Introduction of Michaelson interferometer.- Representative detectors.- Sampling techniques.- Surface analysis using FT-IR.- Boundary conditions in electrodynamics.- Thin-film approximation.- Surface selection rules for surface spectroscopies.- Chemometrics for FT-IR.- Limitation of Beer's law.- Expansion of Beer's law: CLS regression.- Inverse Beer's law: ILS regression.- Mathematical expansion of CLS: PCA.- Merge of ILS and PCA: PCR.- Independent residual terms: PLS.
Infrared spectroscopy as a vibrational spectroscopy.- Normal modes.- Light absorption by a molecule: 1. Understanding by quantum mechanical approach.- Selection rule of IR spectroscopy.- Light absorption by a molecule: 2. Understanding by electrodynamical approach.- Fundamentals of FT-IR.- Two representations of spectra: Time- and frequency-domain representations.- Fourier transform relationship.- Introduction of Michaelson interferometer.- Representative detectors.- Sampling techniques.- Surface analysis using FT-IR.- Boundary conditions in electrodynamics.- Thin-film approximation.- Surface selection rules for surface spectroscopies.- Chemometrics for FT-IR.- Limitation of Beer’s law.- Expansion of Beer’s law: CLS regression.- Inverse Beer’s law: ILS regression.- Mathematical expansion of CLS: PCA.- Merge of ILS and PCA: PCR.- Independent residual terms: PLS.
Infrared spectroscopy as a vibrational spectroscopy.- Normal modes.- Light absorption by a molecule: 1. Understanding by quantum mechanical approach.- Selection rule of IR spectroscopy.- Light absorption by a molecule: 2. Understanding by electrodynamical approach.- Fundamentals of FT-IR.- Two representations of spectra: Time- and frequency-domain representations.- Fourier transform relationship.- Introduction of Michaelson interferometer.- Representative detectors.- Sampling techniques.- Surface analysis using FT-IR.- Boundary conditions in electrodynamics.- Thin-film approximation.- Surface selection rules for surface spectroscopies.- Chemometrics for FT-IR.- Limitation of Beer's law.- Expansion of Beer's law: CLS regression.- Inverse Beer's law: ILS regression.- Mathematical expansion of CLS: PCA.- Merge of ILS and PCA: PCR.- Independent residual terms: PLS.
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