李峻柏
Dr. Junbai Li is a profssor at the National Center for Nanoscienceand Tchnology and the Institute of Chemistry,Chinese Acadcmv of Sciences,China.
目錄
1 Silica-based Nanostructured Porous Biomaterials 1.1 Introduction 1.2 Silica Porous Materials in Drug Release Systems 1.2.1 Conventional Delivery Systems 1.2.2 Silica Porous Materials for Release Systems 1.2.3 Various Mesoporous Silica in Drug Delivery Systems 1.2.4 Stimuli-responsive Mesoporous Silica for Delivery Systems 1.3 Mesoporous Silica Nanoparticles 1.3.1 MSNs for Biological Applications 1.3.2 Non-functionalized MSNs in Drug Release Systems 1.3.3 Inorganic Nanocrystals Capped MSNs 1.3.4 The 「Nanocalves」 on the Surface of MSNs 1.3.5 MSNs as Biomarkers 1.4 Polymer Coated MSNs 1.4.1 Polymer Coated MSNs through PJaysical Adsorption 1.4.2 Polymer Coated MSNs through Covalent Binding 1.5 Summary References 2 Nanostructured Functional Inorganic Materials Templated by Natural Substances 2.1 Introduction 2.2 Metal Oxide Nanomaterials 2.2.1 Silica Nanomaterials 2.2.2 Titania Nanomaterials. 2.2.3 Tin Oxide Nanomaterials 2.2.4 Alumina Nanomaterials 2.2.5 Zirconia Nanomaterials 2.2.6 Zinc Oxide Nanomaterials 2.2.7 Other Examples 2.3 Metallic Materials 2.3.1 Nanostructured Gold 2.3.2 Nanostructured Silver 2.3.3 Nanostructured Platinum 2.3.4 Nanostructured Nickel 2.3.5 Nanostructured Copper 2.3.6 Nanostructured Metallic Arrays 2.3.7 Complex Metallic Materials 2.3.8 Other Examples 2.4 Quantum Dots 2.5 Silica Carbide Materials 2.6 Materials Fabricated by Organic Coating 2.7 Other Natural Substance-derived Materials 2.8 Summary References 3 Inorganic-organic Hybrid Materials Based on Nano-polyoxometalates and Surfactants 3.1 Introduction to Developed POMs 3.1.1 Structures of POMs 3.1.2 Properties of POMs 3.1.3 Applications of POMs 3.2 Inorganic-organic Hybrids of Polyoxometalates and Surfactants/Polyelectrolytes
3.2.1 Phase Behavior of Mixtures of POMs and Surfactants 3.2.2 Multilayer Films Containing POMs by Layer-by-layer Technique on Planar Substrates 3.2.3 Multilayer Films Containing POMs by Layer-by-layer Technique into Spherical Nanocapsules 3.2.4 Monolayer/Multilayer Films Incorporating POMs by Langmuir-Blodgett (LB) Technique 3.2.5 Three-dimensional Aggregates of POM-surfactant Hybrids 3.3 Self-assembled Honeycomb Films of Hydrophobic Surfactant-encapsulated Clusters (HSECs) at Air/Water Interface 3.3.1 Introduction to Honeycomb Films 3.3.2 Fabricating Honeycomb Films of HSECs at Air/Water Interface 3.3.3 Mechanism of Self-assembly of HSECs into Honeycomb Films 3.3.4 Morphology Modulation of Honeycomb Films of HSECs 3.4 Conclusions References 4 Natural Cellulosic Substance Derived Nanostructured Materials 4.1 Introduction 4.2 Natural Cellulosic Substances 4.3 Cellulose Derived Nanomaterials 4.3.1 Titania Nanotubular Materials 4.3.2 Zirconia Nanotubular Materials 4.3.3 Tin Oxide Nanotubular Materials 4.3.4 Indium Tin Oxide Nanotubular Materials 4.3.5 Hybrid of Titania Nanotube and Gold Nanoparticle 4.3.6 Hierarchical Polypyrrole Nanocomposites 4.3.7 Protein Immobilization on Cellulose Nanofibers 4.3.8 Natural Cellulose Substance Derived Hierarchical Polymeric Materials 4.3.9 Metal-coated Cellulose Fibers 4.3.10 Hierarchical Titanium Carbide from Titania-coated Cellulose Paper 4.4 Summary References 5 Nanoporous Template Synthesized Nanotubes for Bio-related Applications 5.1 Introduction 5.2 Porous Templates 5.3 Preparation of Composite Nanotubes in Porous Template 5.3.1 LbL-assembled Polymeric Nanotubes 5.3.2 Nanotubes Bases on Sol-gel Chemistry 5.3.3 Nanotubes Synthesized by Polymerization 5.4 Functional Composite Nanotubes towards Biological Applications 5.4.1 Biofunctional and Biodegradable Nanotubes 5.4.2 Nanotubes for Biosensors and Bioseparation 5.4.3 Nanotubes for Drug and Gene Delivery 5.5 Summary References Index