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Mao-Chun Hong is Professor and Director of the Fujian Institute of Research on the Structure of Matter (FIRSM) at the Chinese Academy of Sciences (CAS). He was selected as the member of CAS in 2003. He received his MS from FIRSM in 1981 and his PhD from Nagoya University, Japan, 2002. He is the associate editor of Crystal Growth & Design and Chinese Journal of Structural Chemistry, and on the editorial boards for Inorganic Chemistry Communications, Inorg. Chim. Acta, and the Journal of Molecular Structure.
Ling Chen is Professor of the Fujian Institute of Research on the Structure of Matter (FIRSM) at the Chinese Academy of Sciences (CAS). She received her MS from Beijing Normal University and her PhD from FIRSM, CAS, in 1999, and concluded her postdoctoral research at Iowa State University from 2000 to 2003. Professor Chen won an award in the "One Hundred Talent Project" from CAS in 2003. Her group's research efforts focus on inorganic and materials chemistry dealing with synthesis, characterization, and understanding of novel solid-state functional materials, especially thermoelectric multinary antimonides and tellurides.
| Contributors | p. xi |
| Preface | p. xv |
| Coordinative Flexibility of Monovalent Silver in [AgI&arrow;L1]L2 Complexes | p. 1 |
| Introduction | p. 1 |
| Ligands L1 with 1,2 N-Donor Functions | p. 2 |
| Ligands L1 with 1,3 N-Donor Functions | p. 7 |
| Ligands L1 with 1,4 N-Donor Functions | p. 12 |
| Conclusions | p. 19 |
| References | p. 22 |
| Indium(III)-Organic Coordination Polymers with Versatile Topological Structures Based on Multicarboxylate Ligands | p. 25 |
| Introduction | p. 25 |
| Architectures Constructed by In(III) and Benzenedicarboxylates | p. 27 |
| Architectures Constructed by In(III) and Benzenetricarboxylates | p. 35 |
| Architectures Constructed by In(III) and Other Benzenemulticarboxylates | p. 49 |
| Luminescence, Ion Exchange, and Hydrogen Storage | p. 55 |
| Conclusions | p. 56 |
| References | p. 59 |
| Crystal Engineering of Coordination Polymers via Solvothermal In Situ Metal-Ligand Reactions | p. 63 |
| Introduction | p. 63 |
| Metal-Redox Reaction | p. 65 |
| Conversion of Carboxylic Acid | p. 69 |
| Carbon-Carbon Bond Formation | p. 72 |
| Heterocycle Formation from Small Molecules | p. 75 |
| Transformation of Sulfur-Containing Ligands | p. 81 |
| Conclusions | p. 83 |
| References | p. 84 |
| Construction of Some Organic-Inorganic Hybrid Complexes Based on Polyoxometalates | p. 87 |
| Introduction | p. 87 |
| Complexes Built Up by POMs with 1,2,4-Triazolate and Its Derivatives | p. 88 |
| Complexes Built Up by Molybdenum Oxide Chains with Pyridine Derivatives | p. 102 |
| Conclusions | p. 107 |
| References | p. 108 |
| Silver(I) Coordination Polymers | p. 111 |
| Introduction | p. 111 |
| Coordination Geometries of Ag+ Ions | p. 112 |
| Ligands in Silver(I) Coordination Polymers | p. 121 |
| Supramolecular Interactions and Counter Anions in Silver(I) Coordination Polymers | p. 128 |
| One-to Three-Dimensional Coordination Polymers Based on Silver-Ligand Coordination Bonds | p. 130 |
| Intertwining or Interpenetrating of Silver(I) Coordination Polymers | p. 135 |
| Properties of Silver(I) Coordination Polymers | p. 137 |
| References | p. 139 |
| Tuning Structures and Properties of Coordination Polymers by the Noncoordinating Backbone of Bridging Ligands | p. 145 |
| Introduction | p. 145 |
| Ligand Design for Coordination Polymers | p. 146 |
| Role of Noncoordinating Backbones of Bridging Ligands | p. 150 |
| Conclusions | p. 164 |
| References | p. 165 |
| Ferroelectric Metal-Organic Coordination Compounds | p. 71 |
| Introduction | p. 71 |
| Homochiral Discrete or Zero-Dimensional MOCCs | p. 173 |
| Acentric MOCPs Produced by Supramolecular Crystal Engineering | p. 179 |
| Homochiral MOCPs Constructed with Optical Organic Ligands | p. 183 |
| Conclusions | p. 191 |
| References | p. 192 |
| Constructing Magnetic Molecular Solids by Employing Three-Atom Ligands as Bridges | p. 195 |
| Introduction | p. 195 |
| Coordination Characteristics of Three-Atom Bridges and Their Role in Mediating Magnetic Interaction | p. 197 |
| Co-Ligands, Templating Cations, and Other Short Bridges | p. 200 |
| Magnetic Molecular Solids Based on Three-Atom Bridges | p. 202 |
| Conclusions | p. 222 |
| References | p. 223 |
| Structures and Properties of Heavy Main-Group Iodometalates | p. 229 |
| Introduction | p. 229 |
| Structural Features of Iodobismuthates and Iodoplumbates | p. 230 |
| Structural Modification | p. 249 |
| Optical and Thermal Properties | p. 255 |
| Summary | p. 262 |
| References | p. 263 |
| Cluster-Based Supramolecular Compounds from Mo(W)/Cu/S Cluster Precursors | p. 267 |
| Introduction | p. 267 |
| Strategies for Design and Assembly | p. 268 |
| Structural Features | p. 273 |
| Luminescent and Third-Order Nonlinear Optical Properties | p. 298 |
| Conclusions | p. 301 |
| References | p. 302 |
| Microporous Metal-Organic Frameworks as Functional Materials for Gas Storage and Separation | p. 307 |
| Introduction | p. 307 |
| Design, Rational Synthesis, and Structure Description | p. 309 |
| Structure Stability, Permanent Microporosity, and Hydrogen Adsorption | p. 322 |
| Hydrocarbon Adsorption | p. 332 |
| Ship-in-Bottle Synthesis | p. 348 |
| Summary and Conclusions | p. 349 |
| References | p. 350 |
| Design and Construction of Metal-Organic Frameworks for Hydrogen Storage and Selective Gas Adsorption | p. 353 |
| Introduction | p. 353 |
| Hydrogen Storage in Porous Metal-Organic Frameworks | p. 354 |
| Porous Metal-Organic Frameworks for Selective Gas Adsorption | p. 366 |
| Outlook | p. 369 |
| References | p. 370 |
| Structure and Activity of Some Bioinorganic Coordination Complexes | p. 375 |
| Introduction | p. 375 |
| Biomimetic Modeling of a Metalloenzyme with a Cluster Structure | p. 376 |
| Bioinspired Complexes with a Recognition Domain | p. 384 |
| Functional Complexes as Therapeutic Agents | p. 391 |
| Conclusions | p. 400 |
| References | p. 401 |
| Index | p. 405 |
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