| Preface |
| List of Contributors |
| The Role of the Cambridge Structural Database in Crystal Engineering / Andrew D. Bond |
| Introduction / 1.1: |
| Organisation and Management of Crystallographic Information / 1.2: |
| Organisation of Crystallographic Information for Crystal Engineering / 1.3: |
| New Tools for Database Research / 1.4: |
| Search for Functional Group Exchanges: GRX / 1.5: |
| Search for Solvated and Unsolvated Structures: Solvates / 1.6: |
| Clustering and Classifying CSD Search Results: dSNAP / 1.7: |
| The PXRD Profile as a Structural Descriptor / 1.8: |
| Identifying Supramolecular Constructs: XPac / 1.9: |
| Concluding Remarks: the Future Role of Crystallographic Databases / 1.10: |
| References |
| Computational crystal structure prediction: towards in silico solid form screening / Graeme M. Day |
| Methods used to Predict Crystal Structures / 2.1: |
| Current Capabilities of Crystal Structure Prediction / 2.3: |
| Exploration of Crystal Forms. A Case Study: Carbamazepine / 2.4: |
| Summary / 2.5: |
| Acknowledgments / 2.6: |
| MultiâÇôcomponent Pharmaceutical Crystalline Phases: Engineering for Performance / Matthew L. Peterson ; Edwin A. Collier ; Magali B. Hickey ; Hector Guzman ; Orn Almarsson |
| Exploring Crystal Form Diversity / 3.1: |
| HighâÇôThroughput Experimentation / 3.3: |
| Examples of "Form and Formulation" / 3.4: |
| AMG517 and Celecoxib ? "Spring and Parachute" Approach / 3.5: |
| Carbamazepine âÇô Stabilization Against a Hydrate / 3.6: |
| Theophylline:Phenobarbital âÇô Two is Better Than One / 3.7: |
| Delaviridine Mesylate âÇô Material Misbehavior / 3.8: |
| Summary and Outlook / 3.9: |
| Complex Formation of Surfactants with Aromatic Compounds and their Pharmaceutical Applications / Yuji Ohashi ; Keiju Sawada ; Nahoko Iimura |
| Structures of the Complexes Formed Between Surfactants and Aromatic Compounds / 4.1: |
| Complex Formation of Aromatic Compounds Containing an Hetero Ring / 4.3: |
| Complex Formation of Biphenyl with Cationic Surfactants / 4.4: |
| Complex Formation of OddâÇôNumber Surfactants with Biphenyl / 4.5: |
| Common Packing Mode in the Complexes / 4.6: |
| Complex Formation by Grinding in a Mortar / 4.7: |
| CâÇôH...ïü°interactions / 4.8: |
| Complex Formation of Anionic Surfactants with Aromatic Compounds / 4.9: |
| Increased Solubility of Insoluble Drugs / 4.10: |
| Enhanced Thermal Stability of Perfumes / 4.11: |
| Complex Formation with Surfactants other than Quaternary Alkylammonium Salts / 4.12: |
| Hydroquinone Complexes / 4.13: |
| Application to Whitening Agents / 4.14: |
| Hydrogen Bonding and Molecular Packing in MultiâÇôFunctional Crystal Structures / Ashwini Nangia |
| Hydrogen Bonding in Ureas and Amides / 5.1: |
| Pyridyl Ureas and Amides / 5.3: |
| Nitrophenyl Ureas and Amides / 5.4: |
| Molecular Conformation and Hydrogen Bonding / 5.5: |
| Supramolecular HSAB Interactions / 5.6: |
| GemâÇôalkynols / 5.7: |
| Conclusions / 5.8: |
| Persistence of NâÇôH...S Hydrogen Bonding in Thiocarbamide Structures / Edward R. T. Tiekink5.9: |
| Supramolecular Aggregation Patterns in the Thiocarbamides / 6.1: |
| Crystal Engineering with the Molecules Containing Amide and Pyridine Functionalities / Kumar Biradha ; Lalit Rajput6.3: |
| Primary Amides Containing the Pyridine Moiety / 7.1: |
| CoâÇôcrystals with Primary Amidopyridines / 7.3: |
| Secondary Amides Containing a Pyridine Moiety / 7.4: |
| BisâÇôAmidopyridine Derivatives / 7.5: |
| Two Component Structures Containing Secondary Amides and Pyridine Derivatives / 7.6: |
| Triamidopyridine Derivatives / 7.7: |
| Acknowledgements / 7.8: |
| Urea/ThioureaâÇôAnion Host Lattices, Stabilization of Labile Species, and Designed Construction of Rosette Ribbon and Layers / Thomas C. W. Mak ; ChiâÇôKeung Lam ; Jie Han |
| Inclusion Compounds with Urea/ThioureaâÇôAnion Host Lattices / 8.1: |
| Stabilization of Cyclic Oxocarbon Dianions by Hydrogen Bonding with Urea/Thiourea / 8.3: |
| Supramolecular Assembly Based on the Rosette Motif / 8.4: |
| Conclusion and Outlook / 8.5: |
| Acknowledgment / 8.6: |
| Multi-component Pharmaceutical Crystalline Phases: Engineering for Performance |
| High-Throughput Experimentation |
| Examples of "Form and Formulation" |
| AMG517 and Celecoxib - "Spring and Parachute" Approach |
| Carbamazepine - Stabilization Against a Hydrate |
| Theophylline:Phenobarbital - Two is Better Than One |
| Delaviridine Mesylate - Material Misbehavior |
| Complex Formation of Odd-Number Surfactants with Biphenyl |
| C-H...?interactions |
| Hydrogen Bonding and Molecular Packing in Multi-Functional Crystal Structures |
| Gem-alkynols |
| Persistence of N-H...S Hydrogen Bonding in Thiocarbamide Structures |
| Co-crystals with Primary Amidopyridines |
| Bis-Amidopyridine Derivatives |
| Urea/Thiourea-Anion Host Lattices, Stabilization of Labile Species, and Designed Construction of Rosette Ribbon and Layers / Chi-Keung Lam |
| Inclusion Compounds with Urea/Thiourea-Anion Host Lattices |
| Preface |
| List of Contributors |
| The Role of the Cambridge Structural Database in Crystal Engineering / Andrew D. Bond |
| Introduction / 1.1: |
| Organisation and Management of Crystallographic Information / 1.2: |
| Organisation of Crystallographic Information for Crystal Engineering / 1.3: |
