Chapter
Chapter 2 FUNDAMENTAL CONCEPTS
2.1. SURFACE PLASMON
RESONANCE
2.2. SURFACE-ENHANCED LUMINESCENCE
2.4. THIRD-ORDER NONLINEAR OPTICAL RESPONSE
Chapter 3 SYNTHESIS OF OPTICAL MATERIALS CONTAINING THE SILVER NANOPARTICLES
3.1. THE SYNTHESIS OF SILVER/LANTHANON
COMPLEX NANOCOMPOSITE MATERIALS
3.1.1. The Synthesis of Silver/Lanthanon
Complex Composite Nanoparticles
(1) Lanthanon Ion Grafted to Silver Nanoparticles
(2) Lanthanon Ion Grafted from Silver Nanoparticles
3.1.2. The Synthesis Silver/Lanthanon Complex
Composite Nanoparticles Doped Solid Materials
3.2. THE SYNTHESIS OF LC
POLYMER/METAL NANOCOMPOSITES
3.2.1. The in-Situ Method
3.3. THE SYNTHESIS OF THIRD-ORDER
NONLINEAR OPTICAL MATERIALS
3.3.1. Synthesis of Ag Nanocomposite Polymer Films
3.3.2. Synthesis of Ag Nanocomposite Inorganic Films
(1) Multitarget Magnetron Sputtering Method
(2) Hybrid Deposition Technique
Chapter 4 CHARACTERIZATIONS OF OPTICAL MATERIALS
4.1. FLUORESCENCE PROPERTIES
(1) Fluorescence Intensity
(2) Quantum Yields and Fluorescence Lifetime
4.2. PHOTO-INDUCED MOLECULAR REORIENTATION
4.3. THIRD-ORDER NONLINEAR
OPTICAL PROPERTIES
Chapter 5 THE EFFECTS OF SILVER NANOPARTICLES ON OPTICAL MATERIALS
5.1. THE EFFECT OF SILVER
NANOPARTICLES’ CONCENTRATION
5.1.2. Photo-Induced Re-Orientation Rate
5.1.3. Third-Order Nonliner Optical Property
5.2. THE EFFECT OF NANOPARTICLES’ SIZE
5.2.2. Photo-Induced Re-Orientation Rate
5.2.3. Third-Order Nonlinear Optical Properties
5.3. THE EFFECT OF SOLID PHASE
5.3.2. Photo-Induced Re-Orientation Rate
5.3.3. Third-Order Nonlinear Optical Properties
6.1. OPTICAL LIMITING BEHAVIOR BASED ON
THIRD-ORDER NONLINEAR OPTICAL PROPERTIES
6.2. OPTICAL SWITCHING BASED ON THIRD-ORDER
NONLINEAR OPTICAL PROPERTIES
Silver Nanoparticles Applied on Photonics Materials
( Nanotechnology Science and Technology )
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