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Modern vibrational spectroscopy and micro-spectroscopy

  1. Title statementModern vibrational spectroscopy and micro-spectroscopy : theory, instrumentation, and biomedical applications / Max Diem.
    PublicationChichester, West Sussex : John Wiley & Sons, Inc., 2015.
    Phys.des.1 online resource.
    ISBN9781118824986 (ePub)
    1118824989 (ePub)
    9781118824955 (Adobe PDF)
    1118824954 (Adobe PDF)
    9781118824924
    111882492X
    1118824865
    9781118824863
    Internal Bibliographies/Indexes NoteIncludes bibliographical references and index.
    ContentsCover; Table of Contents; Title Page; Copyright; Dedication; Preface; References; Preface to Introduction to Modern Vibrational Spectroscopy (1994); References; Part I: Modern Vibrational Spectroscopy and Micro-spectroscopy: Theory, Instrumentation and Biomedical Applications: Introduction; Chapter 1: Molecular Vibrational Motion; 1.1 The concept of normal modes of vibration; 1.2 The separation of vibrational, translational, and rotational coordinates; 1.3 Classical vibrations in mass-weighted Cartesian displacement coordinates; 1.4 Quantum mechanical description of molecular vibrations.
    Content note1.5 Time-dependent description and the transition moment1.6 Basic infrared and Raman spectroscopies; 1.7 Concluding remarks; References; Chapter 2: Symmetry Properties of Molecular Vibrations; 2.1 Symmetry operations and symmetry groups; 2.2 Group representations; 2.3 Symmetry representations of molecular vibrations; 2.4 Symmetry-based selection rules for absorption processes; 2.5 Selection rules for Raman scattering; 2.6 Discussion of selected small molecules; References; Chapter 3: Infrared Spectroscopy; 3.1 General aspects of IR spectroscopy; 3.2 Instrumentation.. 3.3 Methods in interferometric IR spectroscopy3.4 Sampling strategies; References; Chapter 4: Raman Spectroscopy; 4.1 General aspects of Raman spectroscopy; 4.2 Polarizability; 4.3 Polarization of Raman scattering; 4.4 Dependence of depolarization ratios on scattering geometry; 4.5 A comparison between Raman and fluorescence spectroscopy; 4.6 Instrumentation for Raman spectroscopy; References; Chapter 5: A Deeper Look at Details in Vibrational Spectroscopy; 5.1 Fermi resonance; 5.2 Transition dipole coupling (TDC); 5.3 Group frequencies; 5.4 Rot-vibrational spectroscopy; References.. Chapter 6: Special Raman Methods: Resonance, Surface-Enhanced, and Nonlinear Raman Techniques6.1 Resonance Raman spectroscopy; 6.2 Surface-enhanced Raman scattering (SERS); 6.3 Nonlinear Raman effects; 6.4 Continuous wave and pulsed lasers; 6.5 Epilogue; References; Chapter 7: Time-Resolved Methods in Vibrational Spectroscopy; 7.1 General remarks; 7.2 Time-resolved FT infrared (TR-FTIR) spectroscopy; 7.3 Time-resolved Raman and resonance Raman (TRRR) spectroscopy; References; Chapter 8: Vibrational Optical Activity; 8.1 Introduction to optical activity and chirality.. 8.2 Infrared vibrational circular dichroism (VCD)8.3 Observation of VCD; 8.4 Applications of VCD; 8.5 Raman optical activity; 8.6 Observation of ROA; 8.7 Applications of ROA; References; Chapter 9: Computation of Vibrational Frequencies and Intensities; 9.1 Historical approaches to the computation of vibrational frequencies; 9.2 Vibrational energy calculations; 9.3 Ab initio quantum-mechanical normal coordinate computations; 9.4 Vibrational intensity calculations; References.
    Notes to AvailabilityPřístup pouze pro oprávněné uživatele
    Subj. Headings Spectrum analysis - Diagnostic use. * Vibrational spectra. * Cancer - Imaging. * Spectrum analysis - Diagnostic use. * Vibrational spectra. * HEALTH & FITNESS - Diseases - General. * MEDICAL - Clinical Medicine. * MEDICAL - Diseases. * MEDICAL - Evidence-Based Medicine. * MEDICAL - Internal Medicine. * Spectrum analysis - Diagnostic use. * Vibrational spectra.
    MeSH Spectrum Analysis. * Vibration.
    Form, Genre elektronické knihy electronic books
    CountryAnglie
    Languageangličtina
    Document kindElectronic books
    URLPlný text pro studenty a zaměstnance UPOL
    book

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    Modern Vibrational Spectroscopy and Micro-Spectroscopy: Theory, Instrumentation and Biomedical Applications unites the theory and background of conventional vibrational spectroscopy with the principles of microspectroscopy. It starts with basic theory as it applies to small molecules and then expands it to include the large biomolecules which are the main topic of the book with an emphasis on practical experiments, results analysis and medical and diagnostic applications. This book is unique in that it addresses both the parent spectroscopy and the microspectroscopic aspects in one volume.

    Cover; Table of Contents; Title Page; Copyright; Dedication; Preface; References; Preface to Introduction to Modern Vibrational Spectroscopy (1994); References; Part I: Modern Vibrational Spectroscopy and Micro-spectroscopy: Theory, Instrumentation and Biomedical Applications: Introduction; Chapter 1: Molecular Vibrational Motion; 1.1 The concept of normal modes of vibration; 1.2 The separation of vibrational, translational, and rotational coordinates; 1.3 Classical vibrations in mass-weighted Cartesian displacement coordinates; 1.4 Quantum mechanical description of molecular vibrations.1.5 Time-dependent description and the transition moment1.6 Basic infrared and Raman spectroscopies; 1.7 Concluding remarks; References; Chapter 2: Symmetry Properties of Molecular Vibrations; 2.1 Symmetry operations and symmetry groups; 2.2 Group representations; 2.3 Symmetry representations of molecular vibrations; 2.4 Symmetry-based selection rules for absorption processes; 2.5 Selection rules for Raman scattering; 2.6 Discussion of selected small molecules; References; Chapter 3: Infrared Spectroscopy; 3.1 General aspects of IR spectroscopy; 3.2 Instrumentation.3.3 Methods in interferometric IR spectroscopy3.4 Sampling strategies; References; Chapter 4: Raman Spectroscopy; 4.1 General aspects of Raman spectroscopy; 4.2 Polarizability; 4.3 Polarization of Raman scattering; 4.4 Dependence of depolarization ratios on scattering geometry; 4.5 A comparison between Raman and fluorescence spectroscopy; 4.6 Instrumentation for Raman spectroscopy; References; Chapter 5: A Deeper Look at Details in Vibrational Spectroscopy; 5.1 Fermi resonance; 5.2 Transition dipole coupling (TDC); 5.3 Group frequencies; 5.4 Rot-vibrational spectroscopy; References.Chapter 6: Special Raman Methods: Resonance, Surface-Enhanced, and Nonlinear Raman Techniques6.1 Resonance Raman spectroscopy; 6.2 Surface-enhanced Raman scattering (SERS); 6.3 Nonlinear Raman effects; 6.4 Continuous wave and pulsed lasers; 6.5 Epilogue; References; Chapter 7: Time-Resolved Methods in Vibrational Spectroscopy; 7.1 General remarks; 7.2 Time-resolved FT infrared (TR-FTIR) spectroscopy; 7.3 Time-resolved Raman and resonance Raman (TRRR) spectroscopy; References; Chapter 8: Vibrational Optical Activity; 8.1 Introduction to optical activity and chirality.8.2 Infrared vibrational circular dichroism (VCD)8.3 Observation of VCD; 8.4 Applications of VCD; 8.5 Raman optical activity; 8.6 Observation of ROA; 8.7 Applications of ROA; References; Chapter 9: Computation of Vibrational Frequencies and Intensities; 9.1 Historical approaches to the computation of vibrational frequencies; 9.2 Vibrational energy calculations; 9.3 Ab initio quantum-mechanical normal coordinate computations; 9.4 Vibrational intensity calculations; References.

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