Surface-Enhanced Vibrational Spectroscopy
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Surface-Enhanced Vibrational Spectroscopy
Aroca, Ricardo
John Wiley & Sons Inc
03/2006
260
Dura
Inglês
9780471607311
15 a 20 dias
522
Descrição não disponível.
Preface.
Acknowledgments.
Glossary.
1. Theory of Molecular Vibrations. The Origin of Infrared andRaman Spectra.
1.1 Electronic, Vibrational, Rotational and TranslationalEnergy.
1.2 Separation of Nuclear and Electronic Motions.
1.3 Vibrations in Polyatomic Molecules.
1.4 Equilibrium Properties. Dipole Moment andPolarizability.
1.5 Fundamental Vibrational Transitions in the Infrared andRaman Regions.
1.6 Symmetry of Normal Modes and Vibrational States.
1.7 Selection Rules.
1.8 The Example of ab initio Computation of the Raman andInfrared Spectra.
1.9 Vibrational Intensities.
1.10 Definition of Cross-Section.
1.11 The Units of Energy and Force Constants.
References.
2. The Interaction of Light with Nanoscopic Metal Particlesand Molecules on Smooth Reflecting Surfaces.
2.1 Electric Permittivity and Refractive Index.
2.2 Propagation of Electromagnetic Waves and the OpticalProperties of Materials.
2.3 Scattering and Absorption by Nanoscopic Particles.
2.4 Reflection-Absorption Infrared Spectroscopy on SmoothMetal Surfaces.
References.
3. Surface-Enhanced Raman Scattering (SERS).
3.1 Electromagnetic Enhancement Mechanism.
References.
4. Chemical Effects and the SERS Spectrum.
4.1 Physical and Chemical Adsorption.
4.2 SERS/SERRS of Physically Adsorbed Molecules.
4.3 SERS of Chemically Adsorbed Molecules without ElectronicResonance Excitation.
4.4 SERS of Chemically Adsorbed Molecules with Charge TransferExcitation.
4.5 Metal-Molecule or Molecule-Metal ChargeTransfer.
4.6 SERRS from a Surface Complex.
References.
5. Is SERS Molecule Specific?
References.
6. SERS/SERRS, the Analytical Tool.
6.1 Average SERS on Metal Colloids. Preparation andProperties.
6.2 Metal Colloids. The Background SERS.
6.3 Metal Colloids. Maximizing the Average SERS in Solution.
6.4 Average SERS on Metal Island Films.
6.5 Average SERS on Rough Electrodes.
6.6 Ultrasensitive SERS Analysis and Single MoleculeDetection.
6.7 Uniqueness of Ultrasensitive Chemical Analysis. The MovingTarget.
6.8 Applications and Outlook.
References.
7. Surface-Enhanced Infrared Spectroscopy.
7.1 Overview.
7.2 Theoretical Models for SEIRA.
7.3 SEIRA-Active Substrates.
7.4 Interpretation of the Observed SEIRA Spectra.
7.5 Applications of SEIRA.
References.
Index.
Acknowledgments.
Glossary.
1. Theory of Molecular Vibrations. The Origin of Infrared andRaman Spectra.
1.1 Electronic, Vibrational, Rotational and TranslationalEnergy.
1.2 Separation of Nuclear and Electronic Motions.
1.3 Vibrations in Polyatomic Molecules.
1.4 Equilibrium Properties. Dipole Moment andPolarizability.
1.5 Fundamental Vibrational Transitions in the Infrared andRaman Regions.
1.6 Symmetry of Normal Modes and Vibrational States.
1.7 Selection Rules.
1.8 The Example of ab initio Computation of the Raman andInfrared Spectra.
1.9 Vibrational Intensities.
1.10 Definition of Cross-Section.
1.11 The Units of Energy and Force Constants.
References.
2. The Interaction of Light with Nanoscopic Metal Particlesand Molecules on Smooth Reflecting Surfaces.
2.1 Electric Permittivity and Refractive Index.
2.2 Propagation of Electromagnetic Waves and the OpticalProperties of Materials.
2.3 Scattering and Absorption by Nanoscopic Particles.
2.4 Reflection-Absorption Infrared Spectroscopy on SmoothMetal Surfaces.
References.
3. Surface-Enhanced Raman Scattering (SERS).
3.1 Electromagnetic Enhancement Mechanism.
References.
4. Chemical Effects and the SERS Spectrum.
4.1 Physical and Chemical Adsorption.
4.2 SERS/SERRS of Physically Adsorbed Molecules.
4.3 SERS of Chemically Adsorbed Molecules without ElectronicResonance Excitation.
4.4 SERS of Chemically Adsorbed Molecules with Charge TransferExcitation.
4.5 Metal-Molecule or Molecule-Metal ChargeTransfer.
4.6 SERRS from a Surface Complex.
References.
5. Is SERS Molecule Specific?
References.
6. SERS/SERRS, the Analytical Tool.
6.1 Average SERS on Metal Colloids. Preparation andProperties.
6.2 Metal Colloids. The Background SERS.
6.3 Metal Colloids. Maximizing the Average SERS in Solution.
6.4 Average SERS on Metal Island Films.
6.5 Average SERS on Rough Electrodes.
6.6 Ultrasensitive SERS Analysis and Single MoleculeDetection.
6.7 Uniqueness of Ultrasensitive Chemical Analysis. The MovingTarget.
6.8 Applications and Outlook.
References.
7. Surface-Enhanced Infrared Spectroscopy.
7.1 Overview.
7.2 Theoretical Models for SEIRA.
7.3 SEIRA-Active Substrates.
7.4 Interpretation of the Observed SEIRA Spectra.
7.5 Applications of SEIRA.
References.
Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
enhanced optical; book; phenomena; raman; two; many; surfaceenhanced spectroscopy; sers; sevs; vibrational; branch; new; surfaceenhanced; spectroscopy; surface; enhanced; specially; metal; fabricated; deals; nanostructures; plasmons; ability
Preface.
Acknowledgments.
Glossary.
1. Theory of Molecular Vibrations. The Origin of Infrared andRaman Spectra.
1.1 Electronic, Vibrational, Rotational and TranslationalEnergy.
1.2 Separation of Nuclear and Electronic Motions.
1.3 Vibrations in Polyatomic Molecules.
1.4 Equilibrium Properties. Dipole Moment andPolarizability.
1.5 Fundamental Vibrational Transitions in the Infrared andRaman Regions.
1.6 Symmetry of Normal Modes and Vibrational States.
1.7 Selection Rules.
1.8 The Example of ab initio Computation of the Raman andInfrared Spectra.
1.9 Vibrational Intensities.
1.10 Definition of Cross-Section.
1.11 The Units of Energy and Force Constants.
References.
2. The Interaction of Light with Nanoscopic Metal Particlesand Molecules on Smooth Reflecting Surfaces.
2.1 Electric Permittivity and Refractive Index.
2.2 Propagation of Electromagnetic Waves and the OpticalProperties of Materials.
2.3 Scattering and Absorption by Nanoscopic Particles.
2.4 Reflection-Absorption Infrared Spectroscopy on SmoothMetal Surfaces.
References.
3. Surface-Enhanced Raman Scattering (SERS).
3.1 Electromagnetic Enhancement Mechanism.
References.
4. Chemical Effects and the SERS Spectrum.
4.1 Physical and Chemical Adsorption.
4.2 SERS/SERRS of Physically Adsorbed Molecules.
4.3 SERS of Chemically Adsorbed Molecules without ElectronicResonance Excitation.
4.4 SERS of Chemically Adsorbed Molecules with Charge TransferExcitation.
4.5 Metal-Molecule or Molecule-Metal ChargeTransfer.
4.6 SERRS from a Surface Complex.
References.
5. Is SERS Molecule Specific?
References.
6. SERS/SERRS, the Analytical Tool.
6.1 Average SERS on Metal Colloids. Preparation andProperties.
6.2 Metal Colloids. The Background SERS.
6.3 Metal Colloids. Maximizing the Average SERS in Solution.
6.4 Average SERS on Metal Island Films.
6.5 Average SERS on Rough Electrodes.
6.6 Ultrasensitive SERS Analysis and Single MoleculeDetection.
6.7 Uniqueness of Ultrasensitive Chemical Analysis. The MovingTarget.
6.8 Applications and Outlook.
References.
7. Surface-Enhanced Infrared Spectroscopy.
7.1 Overview.
7.2 Theoretical Models for SEIRA.
7.3 SEIRA-Active Substrates.
7.4 Interpretation of the Observed SEIRA Spectra.
7.5 Applications of SEIRA.
References.
Index.
Acknowledgments.
Glossary.
1. Theory of Molecular Vibrations. The Origin of Infrared andRaman Spectra.
1.1 Electronic, Vibrational, Rotational and TranslationalEnergy.
1.2 Separation of Nuclear and Electronic Motions.
1.3 Vibrations in Polyatomic Molecules.
1.4 Equilibrium Properties. Dipole Moment andPolarizability.
1.5 Fundamental Vibrational Transitions in the Infrared andRaman Regions.
1.6 Symmetry of Normal Modes and Vibrational States.
1.7 Selection Rules.
1.8 The Example of ab initio Computation of the Raman andInfrared Spectra.
1.9 Vibrational Intensities.
1.10 Definition of Cross-Section.
1.11 The Units of Energy and Force Constants.
References.
2. The Interaction of Light with Nanoscopic Metal Particlesand Molecules on Smooth Reflecting Surfaces.
2.1 Electric Permittivity and Refractive Index.
2.2 Propagation of Electromagnetic Waves and the OpticalProperties of Materials.
2.3 Scattering and Absorption by Nanoscopic Particles.
2.4 Reflection-Absorption Infrared Spectroscopy on SmoothMetal Surfaces.
References.
3. Surface-Enhanced Raman Scattering (SERS).
3.1 Electromagnetic Enhancement Mechanism.
References.
4. Chemical Effects and the SERS Spectrum.
4.1 Physical and Chemical Adsorption.
4.2 SERS/SERRS of Physically Adsorbed Molecules.
4.3 SERS of Chemically Adsorbed Molecules without ElectronicResonance Excitation.
4.4 SERS of Chemically Adsorbed Molecules with Charge TransferExcitation.
4.5 Metal-Molecule or Molecule-Metal ChargeTransfer.
4.6 SERRS from a Surface Complex.
References.
5. Is SERS Molecule Specific?
References.
6. SERS/SERRS, the Analytical Tool.
6.1 Average SERS on Metal Colloids. Preparation andProperties.
6.2 Metal Colloids. The Background SERS.
6.3 Metal Colloids. Maximizing the Average SERS in Solution.
6.4 Average SERS on Metal Island Films.
6.5 Average SERS on Rough Electrodes.
6.6 Ultrasensitive SERS Analysis and Single MoleculeDetection.
6.7 Uniqueness of Ultrasensitive Chemical Analysis. The MovingTarget.
6.8 Applications and Outlook.
References.
7. Surface-Enhanced Infrared Spectroscopy.
7.1 Overview.
7.2 Theoretical Models for SEIRA.
7.3 SEIRA-Active Substrates.
7.4 Interpretation of the Observed SEIRA Spectra.
7.5 Applications of SEIRA.
References.
Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
