Nanochemistry

1. Types of Nanomaterials
   1. Zero-Dimensional (0D)
      1. Quantum Dots
         1. Semiconductor Quantum Dots
            1. Size and Bandgap Tunability
            2. Application in Display Technologies
         2. Metal Quantum Dots
            1. Plasmonic Properties and Sensing Applications
         3. Quantum Dot Sensitizers in Photovoltaics
      2. Fullerenes
         1. Structural Variants
            1. C60, C70, and Higher Fullerenes
         2. Unique Properties
            1. Superconductivity
            2. Electron Acceptor Properties
         3. Applications in Electronics and Energy Storage
            1. Organic Solar Cells
            2. Supercapacitors
   2. One-Dimensional (1D)
      1. Nanorods
         1. Synthesis Methods
            1. Hydrothermal Synthesis
            2. Template-Based Synthesis
         2. Optical and Electronic Properties
         3. Applications
            1. Display Technologies
            2. Catalytic Properties
      2. Nanowires
         1. Metallic Nanowires
            1. Electrical Conductivity and Applications
            2. Use in Transparent Conductive Films
         2. Semiconductor Nanowires
            1. Electronics and Optoelectronics
            2. Application in Photonics
         3. Polymer Nanowires
            1. Synthesis Techniques
            2. Use in Flexible Electronics
   3. Two-Dimensional (2D)
      1. Graphene
         1. Properties
            1. High Electrical Conductivity
            2. Mechanical Strength
         2. Methods of Production
            1. Chemical Vapor Deposition
            2. Exfoliation Techniques
         3. Applications
            1. Conductive Inks
            2. Reinforcement Materials
      2. Transition Metal Dichalcogenides (TMDs)
         1. Structural Characteristics
            1. Layered Structures
            2. Bandgap Engineering
         2. Notable Compounds
            1. MoS2, WS2
         3. Electronic and Photonic Applications
            1. Transistors
            2. Light Emitting Devices
         4. Synthesis and Functionalization
   4. Three-Dimensional (3D)
      1. Nanoporous Materials
         1. Types
            1. Metal-Organic Frameworks (MOFs)
            2. Zeolites
            3. Mesoporous Silica
         2. Properties
            1. High Surface Area
            2. Tailorable Pore Sizes
         3. Applications
            1. Gas Storage and Separation
            2. Catalysis
      2. Nanocomposites
         1. Composition
            1. Hybrid Materials
         2. Mechanical Enhancement
            1. Reinforcement Mechanisms
         3. Functional Applications
            1. Enhanced Thermal Conductivity
            2. Barrier Properties in Packaging Materials