Handbook of Macrocyclic Supramolecular Assembly

<p></p><p>Section 1. Supramolecular Assemblies Based on Crown Ethers and Cyclophanes.- Chapter 1. Water-Soluble Aromatic Crown Ethers: from Molecular Recognition to Molecular Assembly.- Chapter 2. Polypseudorotaxanes Constructed by Crown Ethers.- Chapter 3. Host-Guest Chemistry of A Macrocycle Containing p Systems Namely Cyclobis(paraquat-p-phenylene).- Chapter 4. Mechanically Selflocked Molecules.- Chapter 5. Photo-luminescent Crown Ether Assembly. Section 2. Supramolecular Assemblies Based on Macrocyclic Arenes.- Chapter 1. Triptycene Derived Macrocyclic&nbsp;Arenes:&nbsp;from&nbsp;Calixarenes&nbsp;to Helicarenes.- Chapter 2. General Introduction&nbsp;of Some Emerging Macrocyclic Arenes&nbsp;Related to Calixarenes and&nbsp;Pillararenes.- Chapter 3. Macrocyclic Amphiphiles for Nanomedicine.- Chapter 4. Preparation of Biosensor Based on Supermolecular Recognizaiton.- Chapter 5. Application of Anion-Pi Interaction on Supramolecular Self-Assembly.- Chapter 6. Functional Rotaxanes: from Synthetic Methodology to Functional&nbsp;Molecular &nbsp;Materials.- Chapter 7. Biphen[n]arenes: Synthesis and Host-Guest Properties.- Chapter 8. Pillararene-based Supramolecular Polymer. Section 3. Supramolecular Assemblies Based on Cyclodextrins.- Chapter 1. Functionalized Cyclodextrins and Their Applications.- Chapter 2. Cyclodextrin Polyrotaxanes: Synthesis, Analytics and Functions.- Chapter 3. Cyclodextrin Hybrid Inorganic Nanocomposites for&nbsp;Molecular Recognition,&nbsp;Selective&nbsp;Adsorption&nbsp;and Drug Delivery.- Chapter 4. Photoresponsive Supramolecular Assembly with Biological Function.- Chapter 5. Cyclodextrin-based Supramolecular Hydrogel.- Chapter 6. Supramolecular Chiral Photochemistry.- Chapter 7. Construction and Functions of Supramolecular Cyclodextrin Polymer.- Chapter 8. Construction of Cyclodextrin-based Magnetic Supramolecular Assemblies and Its Regulation of Cell Mobility.- Chapter 9. Supramolecular Assemblys Based on Multi-Charge Cyclodextrin Induced Aggregation. Section 4. Supramolecular Assemblies Based on Cucurbiturils.- Chapter 1. Stimuli Responsive Self-Assembly Based on Macrocyclic Hosts and Biomedical Applications.- Chapter 2. Modulation of Chemical and Biological Properties of Biomedically Relevant Guest Molecules by Cucurbituril-type Hosts.- Chapter 3. Self-Assembled Two-Dimensional Organic Layers in Solution Phase.- Chapter 4. Modified Cucurbiturils with Various Ring Size: Synthesis.- Chapter 5. Modified Cucurbiturils with Various Ring Size: Assembly.- Chapter 6. Modified Cucurbiturils with Various Ring Size: Functions.- Chapter 7. Biological Systems Involving Cucurbituril.- Chapter 8. Cucurbituril-based Pseudorotaxanes and Rotaxanes.- Chapter 9. Construction of Supramolecular Networks Based on CB8. Section 5.&nbsp;&nbsp; Supramolecular Assemblies Based on Other Macrocycles.- Chapter 1. Supramolecular Catalysis Using Functional Organic Macrocycles and Molecular Cages.- Chapter 2. Porphyrins and Porphyrinoids: Syntheses, Structures, and Properties.- Chapter 3. Protein Self-Assembly: Strategies and&nbsp;Applications.- Chapter 4. Peptide Tectonics: towards Biomimetic and Bioinspired Soft Materials.- Chapter 5. Naphthol-based Macrocycles.- Chapter 6. Carbohydrate-based Macromolecular Self-Assembly.- Chapter 7. in vivo Self-Assembly of Polypeptide-based Nanomaterials.- Chapter 8. Construction of Well-Defined Discrete Metallacycles and Their Biological Applications. Section 6.&nbsp;&nbsp; Some Important Approaches in Macrocycle-based Supramolecular Chemistry.- Chapter 1. Molecular Simulations&nbsp;of Supramolecular Architectures.- Chapter 2. Thermodynamic Studies of Supramolecular Systems.- Chapter 3. Spectral Studies of Supramolecular Systems.- Chapter 4. Artificial Host Molecules Modifying Biomacromolecules.- Chapter 5 Controllable Synthesis of Polynuclear Metal Clusters within Macrocycles.- Chapter 6 Integrating Macrocyclic Rings into Functional 3D Printing Materials.- Chapter 7 Molecular Recognition with Helical Receptors.- Chapter 8 Supramolecular Interface for Biochemical Sensing Applications.- Chapter 9 Supramolecular Functional Complexes Constructed by Orthogonal &nbsp;Self-Assembly.- Chapter 10 Aggregation Induced Emission of Macrocycle-based Assemblies.- Chapter 11 Application&nbsp;of&nbsp;Rare&nbsp;Earth&nbsp;&nbsp;Metal&nbsp;Complexes&nbsp;in&nbsp;Macrocycle-based Assemblies.- Chapter 12 Two Dimensional Supramolecular Framwork Based on Host-Guest Self-Assembly. Section 7.&nbsp;&nbsp; Biological Applications.- Chapter 1. Theranostic Supramolecular Vesicle Systems.- Chapter 2. Host–Guest Sensing by Nanopores and Nanochannels.- Chapter 3. Highly Selective Ultrafast Proton Transport by Synthetic Unimolecular Proton Channels.- Chapter 4.Drug/Gene Delivery Platform Based on Supramolecular Interactions: Hyaluronic Aicd and Folic Acid as Targeting Units.- Chapter 5. Self-Assembling Peptides for Vaccine Development and Antibody Production.- Chapter 6. Supramolecules Assisted&nbsp;Transportof Ions and Molecules through Lipid Bilayers.- Chapter 7. Construction and Biomedical Applications of Macrocycle-based Supramolecular Topological Polymers.- Chapter 8. Supermolecules as Medicinal Drugs.- Chapter 9. Nanoscaled Cyclodextrin Supermolecular System for Drug and Gene Delivery.- Chapter 10. Immunity Regulation by Cyclodextrin-based Supramolecular Assembly.- Chapter 11. Industrial Application of Cyclodextrin.</p><p></p>