| Introduction / Chapter 1: |
| Crystal Engineering, Supramolecular Chemistry, Metallosupramolecules / 1.1: |
| What is a Coordination Polymer? / 1.3: |
| Synthetic Techniques / 1.4: |
| Design, Analysis, Application / 1.5: |
| References |
| Nets: A Tool for Description and Design / Chapter 2: |
| Defining Networks / 2.1: |
| Identifying and Naming Nets / 2.3: |
| 1D Nets / 2.4: |
| 2D Nets / 2.5: |
| Common 3D Nets / 2.6: |
| 3-Connected Nets / 2.6.1: |
| 4-Connected Nets / 2.6.2: |
| 5-Connected Nets / 2.6.3: |
| 6-Connected Nets / 2.6.4: |
| Higher Connected Nets / 2.6.5: |
| Mixed Connectivity Nets / 2.6.6: |
| Rod Packings / 2.7: |
| Interpenetration / Chapter 3: |
| Nomenclature / 3.1: |
| 1D Interpenetration / 3.3: |
| 2D Interpenetration / 3.4: |
| 3D Interpenetration / 3.5: |
| Interpenetration of Nets of Different Composition, Topology and Dimensions / 3.6: |
| Self-penetration / 3.7: |
| Other Entangled Systems / 3.8: |
| Malleability of Coordination Polymers / Chapter 4: |
| Supramolecular Isomerism / 4.1: |
| Malleability of Building Blocks / 4.3: |
| Synthetic Approach / 4.4: |
| Solvent Effects / 4.5: |
| Other Guests / 4.6: |
| Counterions / 4.7: |
| Weaker Interactions / 4.8: |
| Conclusion / 4.9: |
| Transition Metal Coordination Polymers / Chapter 5: |
| Pseudohalide Ligands / 5.1: |
| The Cyanide Ligand / 5.2.1: |
| The Azide Ligand / 5.2.2: |
| NCX Ligands (X = O, S, Se) / 5.2.3: |
| Small Polynitrile Ligands (e.g. dca/tcm) / 5.2.4: |
| Larger Nitrile Donor Ligands / 5.3: |
| Neutral Ligands / 5.3.1: |
| Anionic Nitrile Ligands / 5.3.2: |
| Pyridyl Donor Ligands / 5.4: |
| 2-Connecting Ligands / 5.4.1: |
| 3-Connecting Ligands / 5.4.2: |
| 4-Connecting Ligands / 5.4.3: |
| Five-membered Ring Nitrogen Donor Ligands / 5.5: |
| Other Connectors / 5.5.1: |
| N-Oxide Ligands / 5.6: |
| Carboxylate Ligands / 5.7: |
| Other Ligands / 5.7.1: |
| Mixed Donor Atom Ligands / 5.9: |
| Mixed Ligand Coordination Polymers / 5.10: |
| Rare Earth Coordination Polymers / Chapter 6: |
| Cyanide/Nitrile and Pseudohalide Ligands / 6.1: |
| Five-membered Ring Donors / 6.3: |
| N-Oxide Donors / 6.4: |
| Rare Earth-Carboxylate Polymers / 6.6: |
| Monocarboxylate Ligands / 6.6.1: |
| Dicarboxylate Ligands / 6.6.2: |
| Tricarboxylate Ligands / 6.6.3: |
| Tetracarboxylate Ligands / 6.6.4: |
| Oxalate Coordination Polymers / 6.7: |
| Chloranilic Acid and Dihydroxybenzoquinone / 6.7.2: |
| Polymers with Sufonate-containing Ligands / 6.7.3: |
| Amide Ligands / 6.7.4: |
| Pyridylcarboxylate Ligands / 6.7.5: |
| Mixed 3d/4f Coordination Polymers / 6.8: |
| Cyanide-based Bimetallic Polymers / 6.8.1: |
| Carboxylate-based Bimetallic Polymers / 6.8.2: |
| Other Mixed O/N Donor Ligands / 6.8.3: |
| Actinide Coordination Polymers / 6.9: |
| Organometallic Networks / Chapter 7: |
| Large Aromatic Ligands / 7.1: |
| Cation-[pi] Interactions in Ag(1)-PAH Systems / 7.2.1: |
| Cation-[pi] Interactions with Cyclophanes / 7.2.2: |
| Non-aromatic Cation-[pi] Interactions / 7.2.3: |
| Organometallic Complexes as Ligands / 7.3: |
| Metallocene Bridging Ligands / 7.3.1: |
| Metal-Quinone Bridging Complexes / 7.3.2: |
| Isocarbonyl Polymers / 7.4: |
| R[subscript 3]Sn/R[subscript 3]Pb Systems / 7.5: |
| Metal-Cyanide Polymers / 7.5.1: |
| (Triorganostannyl)tetrazole Polymers / 7.5.2: |
| Inorganic-Organic Hybrids / Chapter 8: |
| 0D Metal-Oxide Substructures / 8.1: |
| 1D Metal-Oxide Substructures / 8.3: |
| 2D Polymers with 1D Metal-Oxide Substructures / 8.3.1: |
| 3D Polymers with 1D Metal-Oxide Substructures / 8.3.2: |
| 2D Metal-Oxide Substructures (Pillared Layers) / 8.4: |
| Magnetism in Coordination Polymers / Chapter 9: |
| Long-range Magnetic Ordering / 9.1: |
| Molecule-based Magnets / 9.2.1: |
| Single-chain Magnets / 9.2.3: |
| Spin Crossover / 9.3: |
| Five-membered Heterocyclic Ring Bridging Ligands / 9.3.1: |
| Six-membered Ring Bridging Ligands / 9.3.3: |
| Cyanide Bridges in Hofmann Phases / 9.3.4: |
| Porous Coordination Polymers / Chapter 10: |
| Terminology / 10.1: |
| Designing Permanent Porosity / 10.2: |
| Flexible Porosity / 10.2.1: |
| Rigid Porosity / 10.2.2: |
| Solvent Exchange / 10.3: |
| Flexible Guest Exchange / 10.3.1: |
| Rigid Guest Exchange / 10.3.2: |
| Gas Storage / 10.4: |
| Hydrogen Gas Storage / 10.4.1: |
| Methane Gas Storage / 10.4.2: |
| Carbon Dioxide Gas Storage / 10.4.3: |
| Other Gases / 10.4.4: |
| Ion Exchange / 10.5: |
| Multifunctional Porous Materials / 10.6: |
| Acentric and Chiral Networks / 10.7: |
| Acentric Networks for Non-linear Optical Behaviour / 11.1: |
| Chiral Networks / 11.3: |
| 1D Helices from Achiral Components / 11.3.1: |
| 2D Chiral Nets from Achiral Components / 11.3.2: |
| 3D Chiral Nets from Achiral Components / 11.3.3: |
| Chiral Ligands / 11.3.4: |
| Applications / 11.3.5: |
| Reactive Coordination Polymers / Chapter 12: |
| Topotactic Reactions / 12.1: |
| Chemically Reactive Ligands / 12.3: |
| Catalysis / 12.4: |
| Other Properties of Coordination Polymers / Chapter 13: |
| Luminescence / 13.1: |
| Redox Activity / 13.3: |
| Conductivity / 13.4: |
| Negative Thermal Expansion / 13.5: |
| Multifunctional Materials / 13.6: |
| Subject Index |
| Introduction / Chapter 1: |
| Crystal Engineering, Supramolecular Chemistry, Metallosupramolecules / 1.1: |
| What is a Coordination Polymer? / 1.3: |
| Synthetic Techniques / 1.4: |
| Design, Analysis, Application / 1.5: |
| References |
