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Molecular and laser spectroscopy. Advances and applications. Volume 2 /

Molecular and Laser Spectroscopy, Advances and Applications: Volume 2 gives students and researchers an up-to-date understanding of the fast-developing area of molecular and laser spectroscopy. This book covers basic principles and advances in several conventional as well as new and upcoming areas o...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Gupta, V. P. (Editor ), Ozaki, Y. (Yukihiro) (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier, 2020.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Title page
  • Copyright
  • Dedication
  • Contents
  • Contributors
  • Preface
  • 1
  • Introduction and overview
  • 1
  • Introduction
  • 1.1
  • Significance of spectroscopic studies
  • 1.2
  • Spectroscopic techniques
  • 1.2.1
  • Infrared spectroscopy
  • 1.2.2
  • Raman spectroscopy
  • 1.2.3
  • Electronic spectroscopy
  • 1.2.4
  • Other techniques
  • 2
  • Background information and overview
  • 2.1
  • Vibrational optical activity spectroscopy
  • 2.2
  • Cavity ring-down spectroscopy
  • 2.3
  • Terahertz time-domain spectroscopy (THz-TDS)
  • 2.4
  • Matrix isolation studies
  • 2.5
  • Optogalvanic spectroscopy
  • 2.6
  • Far- and deep-ultraviolet spectroscopy for inorganic semiconductor
  • 2.7
  • Hyper-Rayleigh scattering (HRS)
  • 2.8
  • Vibrational sum frequency generation (VSFG) spectroscopy
  • 2.9
  • Surface-enhanced Raman spectroscopy
  • 2.10
  • Shell-isolated nanoparticle-enhanced Raman spectroscopy (SHINERS)
  • 2.11
  • Stimulated Raman scattering (SRS)
  • 2.12
  • Synchrotron-based UV resonance Raman scattering (SR-UVRR)
  • 2.13
  • Stand-off Raman spectroscopy
  • 2.14
  • Ultrafast time-resolved molecular spectroscopy techniques
  • 2.14.1
  • Overview of time-resolved electronic spectroscopic studies
  • 2.14.2
  • Overview of ultrafast time-resolved molecular spectroscopy studies
  • 2.15
  • Infrared and Raman imaging and microscopy in medical applications
  • 2.15.1
  • Overview of infrared imaging and microscopy
  • 2.15.2
  • Overview of Raman imaging and microscopy
  • References
  • 2
  • Vibrational optical activity spectroscopy
  • Chapter outline
  • 1
  • Introduction
  • 2
  • Principles of vibrational optical activity spectroscopy
  • 2.1 Raman optical activity
  • 2.2
  • Nonresonance Raman optical activity
  • 2.3
  • Resonance effect in Raman optical activity
  • 2.4
  • Vibrational circular dichroism
  • 3
  • Instrumentation of vibrational optical activity spectroscopy
  • 3.1
  • Instrumentation of Raman optical activity
  • 3.2
  • Instrumentation of vibrational circular dichroism
  • 4
  • Spectral analysis in vibrational optical activity spectroscopy
  • 4.1
  • Quantum chemical calculations of vibrational optical activity spectra
  • 4.2
  • Effects of solvent and conformational averaging
  • 4.3
  • Applications to large systems
  • 5
  • Selected applications of Raman optical activity and vibrational circular dichroism spectroscopy
  • 5.1
  • Raman optical activity
  • 5.1.1
  • Absolute configuration of small molecules
  • 5.1.2
  • Peptides and proteins
  • 5.1.3
  • Carbohydrates
  • 5.1.4
  • Chromophoric proteins
  • 5.1.5
  • Resonance Raman optical activity
  • 5.2
  • Vibrational circular dichroism
  • 5.2.1
  • Determination of absolute configuration
  • 5.2.2
  • Determination of absolute configuration by vibrational circular dichroism exciton coupling
  • 5.2.3
  • Structural analysis of biopolymers
  • 5.2.4
  • Supramolecules
  • 6
  • Summary