List of Contributors xi
Preface xiii
1 Principles of Molecular Chirality 11.1 General Introduction 1
1.2 Geometrical Chirality 2
1.3 Topological Chirality 25
1.4 Conclusion 39
References 39
2 Homochirogenesis and the Emergence of Lifelike Structures 442.1 Introduction and Scope 44
2.2 The Racemic State: Mirror Symmetry Breaking 45
2.3 Asymmetric Oligomerization 49
2.4 Biochirality in Active Sites 58
2.5 Conclusions 61
Acknowledgements 61
References 61
3 Aspects of Crystallization and Chirality 653.1 Introduction 65
3.2 Crystal Space Groups 65
3.3 Fundamentals of Crystallization for a Racemic Mixture 69
3.4 More Complex Crystallization Behavior 71
3.5 Multiple Crystal Forms 74
3.6 Conglomerates Revisited 85
References 90
4 Complexity of Supramolecular Assemblies 944.1 Introduction 94
4.2 Generating Supramolecular Chirality through Assembly of Achiral Components 96
4.3 Enantioselective Supramolecular Assemblies 121
4.4 Conclusions and Future Outlook 134
References 134
5 Chirality in the Host ]Guest Behaviour of Supramolecular Systems 1425.1 An Introduction to Chiral Recognition and its Importance 142
5.2 Chiral Hosts for Chiral Guests 143
5.3 Conclusions: Summary and Future Directions 155
References 156
6 Chiral Influences in Functional Molecular Materials 1596.1 Introduction 159
6.2 Functional Molecular Materials in Different States 161
6.3 Switching 168
6.4 Conducting Materials 171
6.5 Magnetic Materials 173
6.6 Sensors 177
6.7 Conclusions and Outlook 180
Acknowledgements 181
References 181
7 Chirality in Network Solids 1907.1 Introduction 190
7.2 Chirality in Inorganic Network Solids 191
7.3 Synthesis of Chiral Coordination Polymers 192
7.4 Applications of Chiral Coordination Polymers 207
7.5 Summary and Outlook 209
References 210
8 Chiral Metallosupramolecular Polyhedra 2188.1 Introduction 218
8.2 Basic Design Principles 219
8.3 Chiral Polyhedra from Achiral Components 221
8.4 Stereochemical Communication 231
8.5 Resolution of Racemic Metallo ]Supramolecular Polyhedra 236
8.6 Chiral Polyhedra from Chiral Molecular Components 239
8.7 Conclusions and Outlook 250
References 251
9 Chirality at the Solution/Solid ]State Interface 2579.1 Self ]Assembly at the Solution / Solid ]State Interface 257
9.2 Chirality Expression at the Solution / Solid ]State Interface 258
9.3 Chiral Induction / Amplification at the Solution / Solid ]State Interface 266
9.4 Towards Applications 278
9.5 Conclusions 282
References 282
10 Nanoscale Aspects of Chiral Nucleation and Propagation 28510.1 Introduction 285
10.2 Systems of Discussion 288
10.3 Conclusions 303
References 304
11 Chirality in Organic Hosts 30711.1 Introduction 307
11.2 Chiral Hosts in Analytical Applications 307
11.3 Chiral Hosts in Asymmetric Reactions 313
11.4 Conclusion 337
Acknowledgements 338
References 338
12 Chirality Related to Biocatalysis and Enzymes in Organic Synthesis 34312.1 Introduction 343
12.2 Biocatalysis 344
12.3 Biocatalytic Methodologies: Kinetic/Dynamic Kinetic Resolution and Asymmetric Transformations/Chemoselective Desymmetrizations 348
12.4 Optimization of Biocatalyst Performance 351
12.5 Protein Engineering 352
12.6 Hydrolysis/Reverse Hydrolysis 356
12.7 Redox Reactions 366
12.8 C ]C and Other C ]X Bond Formation 380
12.9 Future and Outlook 385
References 385
Index 407
Emeritus Professor F. Richard Keene
Adjunct Professor of Chemistry, School of Pharmacy & Molecular
Sciences, James Cook University, Australia and Department of
Chemistry, University of Canterbury, New Zealand. Honorary Visiting
Research Fellow, School of Chemistry & Physics, University of
Adelaide
Richard Keene is an acknowledged international authority on
stereochemistry in coordination chemistry - and significantly, in
the control of stereochemistry within polymetallic supramolecular
assemblies - and has over the last decade has published widely on
(i) its effect on intramolecular electron and energy transfer in
such assemblies, and (ii) its influence on sequence- and
structure-selectivity in the interaction of such complexes with
nucleic acids, and their cytotoxicity to cancer cells and bacteria.
He has over 160 publications (h-index 44), as well 6 chapters in
monographs and a patent.
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