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2. Synthesis of Semiconductor Nanomaterials
4. Optical Properties
4.1. Linear Optical Absorption and Emission
4.2. Non-Linear Optical Absorption and Emission
4.3. Other Relevant Optical Properties: Chemiluminescence and Electroluminescence
5. Charge Carrier Dynamics
5.1. Ultrafast Time-Resolved Laser Techniques
5.2. Linear Dynamic Properties: Relaxation, Trapping, and Recombination
5.4. Charge Transfer Dynamics Involving Nanoparticles
7. Applications of Optical Properties
7.1. Energy Conversion: Photovoltaics and Photoelectrochemistry
7.3. Chemical and Biological Sensing
7.4. Photonics and Solid State Lighting
7.5. Single Molecule and Single Nanoparticle Spectroscopy
2. Nanostructure Presented Chemiluminescence
2.1. Nanostructure as Catalyst in Chemiluminescence
2.1.1. Liquid-Phase Chemiluminescence
2.1.1.1. Non-labeled liquid-phase catalytic reaction
2.1.2. Air-Phase and Aerosol Chemiluminescence
3.4. Other Nanostructure Presented Electrochemiluminescence
2. What is an Exciton in a Nanoscale System?
2.1. Limiting Cases of Excitons
2.2. A General Picture of Nanoscale Excitons
2.4. Singlet-Triplet Splitting and the Exchange Interaction
4. Conjugated Polymers
4.1. The Basic Picture of Conjugated Polymer Excitons
4.2. Conformational Subunits and Their Interactions
4.3. Exciton-Phonon Coupling and the Role of Torsional Modes
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