Frontiers of surface-enhanced raman scattering : single-nanoparticles and single cells, edited by Yukihiro Ozaki, Katrin Kneipp, Ricardo R Aroca
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The instance Frontiers of surface-enhanced raman scattering : single-nanoparticles and single cells, edited by Yukihiro Ozaki, Katrin Kneipp, Ricardo R Aroca represents a material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library. This resource is a combination of several types including: Instance, Electronic.
The Resource
Frontiers of surface-enhanced raman scattering : single-nanoparticles and single cells, edited by Yukihiro Ozaki, Katrin Kneipp, Ricardo R Aroca
Resource Information
The instance Frontiers of surface-enhanced raman scattering : single-nanoparticles and single cells, edited by Yukihiro Ozaki, Katrin Kneipp, Ricardo R Aroca represents a material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library. This resource is a combination of several types including: Instance, Electronic.
- Label
- Frontiers of surface-enhanced raman scattering : single-nanoparticles and single cells, edited by Yukihiro Ozaki, Katrin Kneipp, Ricardo R Aroca
- Title remainder
- single-nanoparticles and single cells
- Statement of responsibility
- edited by Yukihiro Ozaki, Katrin Kneipp, Ricardo R Aroca
- Note
- Includes index
- Bibliography note
- Includes bibliographical references and index
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
-
- Cover; Title Page; Copyright; Contents; List of Contributors; Preface; Chapter 1 Calculation of Surface-Enhanced Raman Spectra Including Orientational and Stokes Effects Using TDDFT/Mie Theory QM/ED Method; 1.1 Introduction: Combined Quantum Mechanics/ Electrodynamics Methods; 1.2 Computational Details; 1.3 Summary of Model Systems; 1.4 Azimuthal Averaging; 1.5 SERS of Pyridine: Models G, A, B, S, and V; 1.6 Orientation Effects in SERS of Phthalocyanines; 1.7 Two Particle QM/ED Calculations; 1.8 Summary; Acknowledgment; References
- Chapter 2 Non-resonant SERS Using the Hottest Hot Spots of Plasmonic Nanoaggregates2.1 Introduction; 2.2 Aggregates of Silver and Gold Nanoparticles and Their Hot Spots; 2.2.1 Evaluation of Plasmonic Nanoaggregates by Vibrational Pumping due to a Non-resonant SERS Process; 2.2.2 Probing Plasmonic Nanoaggregates by Electron Energy Loss Spectroscopy; 2.2.3 Probing Local Fields in Hot Spots by SERS and SEHRS; 2.3 SERS Using Hot Silver Nanoaggregates and Non-resonant NIR Excitation; 2.3.1 SERS Signal vs. Concentration of the Target Molecule
- 2.3.2 Spectroscopic Potential of Non-resonant SERS Using the Hottest Hot Spots2.4 Summary and Conclusions; References; Chapter 3 Effect of Nanoparticle Symmetry on Plasmonic Fields: Implications for Single-Molecule Raman Scattering; 3.1 Introduction; 3.2 Methodology; 3.3 Plasmon Mode Structure of Nanoparticle Clusters; 3.3.1 Dimers; 3.3.2 Trimers; 3.4 Effect of Plasmon Modes on SMSERS; 3.4.1 Effect of the Spectral Lineshape; 3.4.2 Effect of Multiple Normal Modes; 3.5 Conclusions; Acknowledgment; References
- Chapter 4 Experimental Demonstration of Electromagnetic Mechanism of SERS and Quantitative Analysis of SERS Fluctuation Based on the Mechanism4.1 Experimental Demonstration of the EM Mechanism of SERS; 4.1.1 Introduction; 4.1.2 Observations of the EM Mechanism in SERS Spectral Variations; 4.1.3 Observations of the EM Mechanism in the Refractive Index Dependence of SERS Spectra; 4.1.4 Quantitative Evaluation of the EM Mechanism of SERS; 4.1.5 Summary; 4.2 Quantitative Analysis of SERS Fluctuation Based on the EM Mechanism; 4.2.1 Introduction
- 4.2.2 Intensity and Spectral Fluctuation in SERS and SEF4.2.3 Framework for Analysis of Fluctuation in SERS and SEF; 4.2.4 Analysis of Intensity Fluctuation in SERS and SEF; 4.2.5 Analysis of Spectral Fluctuation in SERS and SEF; 4.2.6 Summary; 4.3 Conclusion; Acknowledgments; References; Chapter 5 Single-Molecule Surface-Enhanced Raman Scattering as a Probe for Adsorption Dynamics on Metal Surfaces; 5.1 Introduction; 5.2 Simultaneous Measurements of Conductance and SERS of a Single-Molecule Junction; 5.3 SERS Observation Using Heterometallic Nanodimers at the Single-Molecule Level
- Control code
- 858914517
- Extent
- 1 online resource
- Form of item
- online
- Isbn
- 9781118703571
- Lccn
- 2013038586
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- Record ID
- .b128092671
- Specific material designation
- remote
- System control number
- (OCoLC)858914517
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