Plasmons : Theory and Applications.
Helsey, Kristina N.
Plasmons : Theory and Applications. - 1st ed. - 1 online resource (495 pages) - Physics Research and Technology Series . - Physics Research and Technology Series .
Intro -- Contents -- Preface -- Metal Nanostructures with Controlled Profiles Fabricated by Nanosphere Lithography for Localized Surface Plasmon Resonance -- Abstract -- 1. Introduction -- 2. Nanostructures Obtained by Dispersed NSL -- 2.1. Simulation Formulas for Dispersed NSL -- 2.1.1. Nanostructure profile after metal evaporation -- a. Nanostructure profile for conformal metal evaporation -- b. Nanostructure profile for non-conformal metal evaporation -- c. Non-conformal metal evaporation at a vertical angle -- 2.1.2. Nanostructure profile after metal etching -- a. Nanostructure profile after vertically metal etching -- b. Nanostructure profile after oblique metal etching -- c. Nanostructure profile after wet etching -- 2.2. Experiment Verifications -- 2.2.1. 3D gold nanostructures fabricated by dispersed NSL -- 2.2.2. Real time LSPR spectra during the wet etching -- 2.2.3. Nanoholes obtained with non-conformal gold evaporation -- 2.3. Complicated Simulation Examples -- 2.3.1. The 3D multiple depositions and oblique etching -- 2.3.2. The mixture of 3D and 2D depositions -- 2.3.3. Comparison between the wet and dry etching -- 3. Nanostructures Obtained by Closely Packed NSL -- 3.1. Simulation Formulas for Closely Packed NSL -- 3.1.1. Metal structure nearby a single nanosphere -- 3.1.2. The influence of adjacent nanospheres -- 3.2. Experimental Verifications -- 3.3. Simulation Examples -- 4. Some Nanostructures Fabricated by NSL For LSPR -- 4.1. 3D Nanostructures -- 4.1.1. Polarization dependence of the 3D nanostructures -- 4.1.2. LSPR sensitivity versus the 3D nanostructures -- 4.2. Nanoholes -- 4.2.1. LSPR sensitivity of the nanoholes -- 4.2.2. BSA test of the nanoholes -- 4.2.3. Biotin-streptavidin test -- 4.3. Patchy Gold Nanoparticles -- 5. Conclusion -- References. Strategies for the Enhancement of Surface Plasmon Resonance Immunoassays for High Sensitivity Biosensors -- Abstract -- Introduction -- Protein Labelled Enhancement -- Sandwich Immunoassays -- Small Molecule Immunoassays -- Noble Metal Nanoparticle Enhancement -- Theory of Noble Metal SPR Enhancement -- Metal Nanoparticle Enhancement: Functionalization and Assay Performance -- Effects of Nanoparticle Size, Shape and Distance on Critical Assay Parameters -- Non-Specific Binding -- Related Techniques -- Other High Mass Label Enhancements -- Effects of Surface Construction -- Fixed Planar Gold Surfaces -- Nanoislands -- Nanohole Arrays -- Noble Metal Colloids -- Colloid and Bead-Based Plasmonic Immunoassay -- Plasmon Shift-Based Immunoassays -- Colorimetric Immunochromatographic Strip Test Assays -- Conclusion -- References -- Plasmon Dispersion and Damping in Two-Dimensional Electron Gases on Metal Substrates -- Abstract -- Introduction -- Formation of QWS -- Experimental -- Results and Discussion -- 1. Ag Films on Ni(111) -- Ag/Cu(111) -- Damping processes of the SP in Ag/Cu(111) -- Na/Cu(111) -- Conclusions -- Acknowledgments -- References -- Evanescent Coupling between Resonant Plasmonic Nanoparticles and the Design of Nanoparticle Systems -- Abstract -- Introduction -- Electrostatic" Eigenmodes for Plasmonic Nanoparticles -- Coupling of Plasmonic Nanoparticles -- Two Particle, Single Mode Coupling -- Two Particle, Double Mode Coupling -- Plasmon-Induced Transparency via Three Particle Coupling -- A Plasmonic Circuit - The Wheatstone Bridge -- Conclusion -- Acknowledgments -- References -- SPR-Facilitated Interrogation of Enzymatic Reactions Involving Nucleic Acids -- Abstract -- Introduction -- Direct Measurement of Enzymatic Activity Involving Oligonucleotides -- DNA and RNA Polymerization -- Excision of DNA Damage -- DNA Ligation. DNA Topological Manipulation -- Enzyme-Based Strategies for Increasing Nucleic Acid Detection Sensitivity -- Conclusion -- References -- Surface Plasmon Assisted Microscopy: Reverse Kretschmann Fluorescence Analysis of Kinetics of Hypertrophic Cardiomyopathy Heart -- Abstract -- Introduction -- Materials and Methods -- Overview -- Results -- Discussion -- Acknowledgments -- Abbreviations -- References -- Two-Dimensional Plasmon Polariton Nanooptics by Imaging in Far-Field -- Abstract -- Introduction -- Lithographic Nanoscale Sample Preparation -- Lithographic Fluorescence Imaging -- Leakage Radiation Imaging -- Interaction of SPPs with Beamsplitters -- Elliptical Bragg Reflectors and Interferometer -- Linear Bragg Reflector -- Conclusion -- Acknowledgments -- References -- Surface Plasmon Resonance Spectroscopy for Biomimetic Membrane Assembly and Protein-Membrane Interactions Studies -- Abstract -- Introduction -- Surface Plasmon Resonance (SPR) Technique and Apparatus -- Lipidic Structures -- Hybrid Bilayer Membranes (HBM) -- Supported Lipid Bilayers and Tethered Lipid Bilayers -- Binding of Acylated Proteins towards Bio-Mimetic HBM -- Tethered Lipid Membrane for the Study of a Bacterial Toxin -- Conclusion -- References -- Plasmonic Phenomena in Nanoarrays of Metallic Particles -- Abstract -- 1. Introduction -- 2. Surface Plasmon Polaritons -- 2.1. Surface Polaritons Properties -- 3. SPP Localization -- 4. Second-Harmonic Far-Field Microscopy of Localized SPPS -- 5. SPP Scalar Multiple Scattering Model -- 6. SPP Vectorial Multiple Scattering Model -- 7. Nano Optics of Surface Plasmon Polaritons -- 8. Two-Dimensional Optics with Surface Electromagnetic Microwaves -- 9. Conclusion -- Acknowledgment -- References -- Application of Localized Surface Plasmons to Study Morphological Changes in Metal Nanoparticles -- Abstract -- 1. Introduction. 2. Quasistatic Approximation -- 3. Morphology of Metal Island Films and Inhomogeneous Broadening of the Plasmon Bands -- 4. Heat Treatment Induced Reversible Shape Changes of Metal Nanoparticles -- 5. Light Treatment of the Metal Island Films -- 6. Discussion of the Results -- Conclusion -- References -- Surface Plasmon Resonance -- Applications -- in Nanoparticle Detection from a Liquid -- Matrix Using the Maximum Entropy Method -- Enhanced Transmission of Light and -- Matter Through Subwavelength -- Nanoapertures by FarĀField MultipleĀBeam -- Interference -- Graded Plasmonic Structures and Their -- Properties -- Infrared Surface Plasmon Spectroscopy of Living Cells -- Basic Properties of Plasmons -- Exciton-Plasmon Interactions in Individual Carbon Nanotubes -- Surface Phenomena caused by Optical Spin-Orbit Interaction: A Pedagogical Theory using Quantum Mechanical Concepts -- Blank Page -- Blank Page.
9781617614217
Plasmons (Physics).
Surface plasmon resonance.
Electronic books.
QC176.8.P55 P578 2011
530.4/4
Plasmons : Theory and Applications. - 1st ed. - 1 online resource (495 pages) - Physics Research and Technology Series . - Physics Research and Technology Series .
Intro -- Contents -- Preface -- Metal Nanostructures with Controlled Profiles Fabricated by Nanosphere Lithography for Localized Surface Plasmon Resonance -- Abstract -- 1. Introduction -- 2. Nanostructures Obtained by Dispersed NSL -- 2.1. Simulation Formulas for Dispersed NSL -- 2.1.1. Nanostructure profile after metal evaporation -- a. Nanostructure profile for conformal metal evaporation -- b. Nanostructure profile for non-conformal metal evaporation -- c. Non-conformal metal evaporation at a vertical angle -- 2.1.2. Nanostructure profile after metal etching -- a. Nanostructure profile after vertically metal etching -- b. Nanostructure profile after oblique metal etching -- c. Nanostructure profile after wet etching -- 2.2. Experiment Verifications -- 2.2.1. 3D gold nanostructures fabricated by dispersed NSL -- 2.2.2. Real time LSPR spectra during the wet etching -- 2.2.3. Nanoholes obtained with non-conformal gold evaporation -- 2.3. Complicated Simulation Examples -- 2.3.1. The 3D multiple depositions and oblique etching -- 2.3.2. The mixture of 3D and 2D depositions -- 2.3.3. Comparison between the wet and dry etching -- 3. Nanostructures Obtained by Closely Packed NSL -- 3.1. Simulation Formulas for Closely Packed NSL -- 3.1.1. Metal structure nearby a single nanosphere -- 3.1.2. The influence of adjacent nanospheres -- 3.2. Experimental Verifications -- 3.3. Simulation Examples -- 4. Some Nanostructures Fabricated by NSL For LSPR -- 4.1. 3D Nanostructures -- 4.1.1. Polarization dependence of the 3D nanostructures -- 4.1.2. LSPR sensitivity versus the 3D nanostructures -- 4.2. Nanoholes -- 4.2.1. LSPR sensitivity of the nanoholes -- 4.2.2. BSA test of the nanoholes -- 4.2.3. Biotin-streptavidin test -- 4.3. Patchy Gold Nanoparticles -- 5. Conclusion -- References. Strategies for the Enhancement of Surface Plasmon Resonance Immunoassays for High Sensitivity Biosensors -- Abstract -- Introduction -- Protein Labelled Enhancement -- Sandwich Immunoassays -- Small Molecule Immunoassays -- Noble Metal Nanoparticle Enhancement -- Theory of Noble Metal SPR Enhancement -- Metal Nanoparticle Enhancement: Functionalization and Assay Performance -- Effects of Nanoparticle Size, Shape and Distance on Critical Assay Parameters -- Non-Specific Binding -- Related Techniques -- Other High Mass Label Enhancements -- Effects of Surface Construction -- Fixed Planar Gold Surfaces -- Nanoislands -- Nanohole Arrays -- Noble Metal Colloids -- Colloid and Bead-Based Plasmonic Immunoassay -- Plasmon Shift-Based Immunoassays -- Colorimetric Immunochromatographic Strip Test Assays -- Conclusion -- References -- Plasmon Dispersion and Damping in Two-Dimensional Electron Gases on Metal Substrates -- Abstract -- Introduction -- Formation of QWS -- Experimental -- Results and Discussion -- 1. Ag Films on Ni(111) -- Ag/Cu(111) -- Damping processes of the SP in Ag/Cu(111) -- Na/Cu(111) -- Conclusions -- Acknowledgments -- References -- Evanescent Coupling between Resonant Plasmonic Nanoparticles and the Design of Nanoparticle Systems -- Abstract -- Introduction -- Electrostatic" Eigenmodes for Plasmonic Nanoparticles -- Coupling of Plasmonic Nanoparticles -- Two Particle, Single Mode Coupling -- Two Particle, Double Mode Coupling -- Plasmon-Induced Transparency via Three Particle Coupling -- A Plasmonic Circuit - The Wheatstone Bridge -- Conclusion -- Acknowledgments -- References -- SPR-Facilitated Interrogation of Enzymatic Reactions Involving Nucleic Acids -- Abstract -- Introduction -- Direct Measurement of Enzymatic Activity Involving Oligonucleotides -- DNA and RNA Polymerization -- Excision of DNA Damage -- DNA Ligation. DNA Topological Manipulation -- Enzyme-Based Strategies for Increasing Nucleic Acid Detection Sensitivity -- Conclusion -- References -- Surface Plasmon Assisted Microscopy: Reverse Kretschmann Fluorescence Analysis of Kinetics of Hypertrophic Cardiomyopathy Heart -- Abstract -- Introduction -- Materials and Methods -- Overview -- Results -- Discussion -- Acknowledgments -- Abbreviations -- References -- Two-Dimensional Plasmon Polariton Nanooptics by Imaging in Far-Field -- Abstract -- Introduction -- Lithographic Nanoscale Sample Preparation -- Lithographic Fluorescence Imaging -- Leakage Radiation Imaging -- Interaction of SPPs with Beamsplitters -- Elliptical Bragg Reflectors and Interferometer -- Linear Bragg Reflector -- Conclusion -- Acknowledgments -- References -- Surface Plasmon Resonance Spectroscopy for Biomimetic Membrane Assembly and Protein-Membrane Interactions Studies -- Abstract -- Introduction -- Surface Plasmon Resonance (SPR) Technique and Apparatus -- Lipidic Structures -- Hybrid Bilayer Membranes (HBM) -- Supported Lipid Bilayers and Tethered Lipid Bilayers -- Binding of Acylated Proteins towards Bio-Mimetic HBM -- Tethered Lipid Membrane for the Study of a Bacterial Toxin -- Conclusion -- References -- Plasmonic Phenomena in Nanoarrays of Metallic Particles -- Abstract -- 1. Introduction -- 2. Surface Plasmon Polaritons -- 2.1. Surface Polaritons Properties -- 3. SPP Localization -- 4. Second-Harmonic Far-Field Microscopy of Localized SPPS -- 5. SPP Scalar Multiple Scattering Model -- 6. SPP Vectorial Multiple Scattering Model -- 7. Nano Optics of Surface Plasmon Polaritons -- 8. Two-Dimensional Optics with Surface Electromagnetic Microwaves -- 9. Conclusion -- Acknowledgment -- References -- Application of Localized Surface Plasmons to Study Morphological Changes in Metal Nanoparticles -- Abstract -- 1. Introduction. 2. Quasistatic Approximation -- 3. Morphology of Metal Island Films and Inhomogeneous Broadening of the Plasmon Bands -- 4. Heat Treatment Induced Reversible Shape Changes of Metal Nanoparticles -- 5. Light Treatment of the Metal Island Films -- 6. Discussion of the Results -- Conclusion -- References -- Surface Plasmon Resonance -- Applications -- in Nanoparticle Detection from a Liquid -- Matrix Using the Maximum Entropy Method -- Enhanced Transmission of Light and -- Matter Through Subwavelength -- Nanoapertures by FarĀField MultipleĀBeam -- Interference -- Graded Plasmonic Structures and Their -- Properties -- Infrared Surface Plasmon Spectroscopy of Living Cells -- Basic Properties of Plasmons -- Exciton-Plasmon Interactions in Individual Carbon Nanotubes -- Surface Phenomena caused by Optical Spin-Orbit Interaction: A Pedagogical Theory using Quantum Mechanical Concepts -- Blank Page -- Blank Page.
9781617614217
Plasmons (Physics).
Surface plasmon resonance.
Electronic books.
QC176.8.P55 P578 2011
530.4/4