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Spin–Crossover Materials – Properties and Applications

MA Halcrow (Autor)

Software / Digital Media
568 Seiten
2013
John Wiley & Sons Inc (Hersteller)
978-1-118-51930-1 (ISBN)
173,03 inkl. MwSt
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Beginning with an introductory chapter describing the spin-crossover phenomenon and a historical overview of the field since it was first observed in the 1930s, this book looks at recent advances in the chemistry of "traditional" spin-crossover complexes and materials containing iron(II), iron(III) or cobalt(II). Other topics include various types of spin-state transition, multi-functional and nanoscale spin-crossover materials, and new experimental and theoretical discoveries about the physical mechanism of spin-crossover at the molecular level and in bulk materials.

Malcolm Halcrow, Professor of Inorganic Chemistry, University of Leeds, UK Professor Halcrow's independent research has spanned different areas of synthetic inorganic chemistry, but with particular interests in switchable metal complexes, supramolecular chemistry and crystal engineering. The synthesis and structural chemistry of spin-crossover materials has been his most active research area in the past ten years; since his first paper in the field in 2001, Professor Halcrow has published 34 papers directly related to spin-crossover, including three journal reviews which are widely cited in the spin-crossover literature.

List of Contributors xv Preface xvii 1 The Development of Spin-Crossover Research 1 Keith S. Murray 1.1 Introduction 1 1.2 Discrete Clusters of SCO Compounds 4 1.3 1D Chains of FeII SCO Materials 22 1.4 1D Chains of FeIII SCO Materials 28 1.5 2D Sheets of FeII SCO Materials 29 1.6 3D Porous SCO Materials 30 1.7 Some Recent Developments in Mononuclear SCO FeII, FeIII and CoII Compounds 33 1.8 Multifunctional/Hybrid SCO Materials 37 1.9 Developments in Instrumental Methods in Spin-Crossover Measurements 40 1.10 Applications of Molecular Spin-Crossover Compounds 41 1.11 Summary 42 2 Novel Mononuclear Spin-Crossover Complexes 55 Birgit Weber 2.1 Introduction and General Considerations 55 2.2 Novel Coordination Numbers (CN), Coordination Geometries and Metal Centres 57 2.3 Iron Complexes with Novel Ligand Donor Atoms and New Ligand Systems 65 2.4 Other Examples 70 2.5 Conclusion and Outlook 72 3 Spin-Crossover in Discrete Polynuclear Complexes 77 Juan Olguin andSally Brooker 3.1 Introduction 77 3.2 Dinuclear Iron(II) Complexes 79 3.3 Higher Nuclearity Iron(II) Compounds 98 3.4 Iron(III) 104 3.5 Cobalt(II) 109 3.6 Dinuclear Chromium(II) Complex 111 3.7 Concluding Remarks 112 4 Polymeric Spin-Crossover Materials 121 M. Carmen Munoz and Jose Antonio Real 4.1 Introduction 121 4.2 One-Dimensional SCO-CPs 121 4.3 Two-d = Dimensional SCO-CPs 128 4.4 Three-Dimensional SCO-CPs 133 4.5 Conclusion 138 5 Structure:Function Relationships in Molecular Spin-Crossover Materials 147 Malcolm A. Halcrow 5.1 Introduction 147 5.2 Molecular Shape 150 5.3 Crystal Packing 155 5.4 Cooperativity Mediated by Disorder 158 5.5 Compounds Showing Wide Thermal Hysteresis 158 5.6 Other Noteworthy Compounds 162 5.7 Conclusions 164 6 Charge Transfer-Induced Spin-Transitions in Cyanometallate Materials 171 Kim R. Dunbar, Catalina Achim and Michael Shatruk 6.1 Introduction 171 6.2 Characterization of CTIST Compounds 173 6.3 CTIST in Coordination Polymers 174 6.4 CTIST in Nanoscale Materials 189 6.5 CTIST in Polynuclear Transition Metal Complexes 195 6.6 Summary and Outlook 198 7 Valence Tautomeric Transitions in Cobalt-dioxolene Complexes 203 Colette Boskovic 7.1 Introduction 203 7.2 Induction of Valence Tautomeric Transitions 205 7.3 Other Factors that Contribute to the Valence Tautomeric Transition 210 7.4 Polynuclear Valence Tautomeric Complexes 214 7.5 Bifunctional Valence Tautomeric Complexes 218 7.6 Concluding Remarks 220 8 Reversible Spin Pairing in Crystalline Organic Radicals 225 Jeremy M. Rawson and John J. Hayward 8.1 Introduction 225 8.2 Radical Pairs: Solution and Gas Phase Studies 226 8.3 Dimerisation in the Solid State 229 8.4 Summary and Future Perspectives 234 9 Breathing Crystals from Copper Nitroxyl Complexes 239 Victor Ovcharenko and Elena Bagryanskaya 9.1 Introduction 239 9.2 Structural and Magnetic Anomalies 241 9.3 Relationship Between the Chemical Step and the Physical Property 245 9.4 Relationship Between the Thermally Induced Reorientation of Aromatic Solvate Molecules and the Character of the Magnetic Anomaly 251 9.5 EPR Study of Breathing Crystals 255 9.6 Classification of Spin-Transitions in Breathing Crystals and Correlations with Magnetic Susceptibility 261 9.7 The Detailed Magnetic Structure of Breathing Crystals 266 9.8 EPR-detected LIESST on Breathing Crystals 272 9.9 Conclusion 275 10 Spin-State Switching in Solution 281 Matthew P. Shores, Christina M. Klug and Stephanie R. Fiedler 10.1 Introduction and Scope 281 10.2 Spin-Crossover: Solid State Versus Solution 282 10.3 Practical Considerations 283 10.4 Spin-Crossover in Solution 285 10.5 Ligation Changes Driving Spin-State Switching in Solution 288 10.6 Second Coordination Sphere Triggers for Spin-State Switching 291 10.7 Challenges and Opportunities 294 10.8 Conclusions/Outlook 295 11 Multifunctional Materials Combining Spin-Crossover with Conductivity and Magnetic Ordering 303 Osamu Sato, Zhao-Yang Li, Zi-Shuo Yao, Soonchul Kang and Shinji Kanegawa 11.1 Introduction 303 11.2 Spin-Crossover and Conductivity: Spin-Crossover Conductors 303 11.3 Spin-Crossover and Magnetic Interaction: Spin-Crossover Magnets 308 12 Amphiphilic and Liquid Crystalline Spin-Crossover Complexes 321 Shinya Hayami 12.1 Introduction 321 12.2 Unique Magnetic Properties of SCO Cobalt(II) Compounds with Long Alkyl Chains 322 12.3 Liquid Crystalline SCO Compounds 325 12.4 Langmuir--Blodgett Films and Amphiphilic SCO Compounds 331 12.5 Conclusion and Outlook 339 13 Luminescent Spin-Crossover Materials 347 Helena J. Shepherd, Carlos M. Quintero, G'abor Molnar, Lionel Salmon and Azzedine Bousseksou 13.1 General Introduction 347 13.2 Introduction to Luminescent Materials and Luminescence Energy Transfer 348 13.3 Electronic Transitions and Optical Properties of Spin-Crossover Complexes 358 13.4 Materials with Combined Spin-Crossover and Luminescent Functionalities 361 13.5 Concluding Remarks 371 14 Nanoparticles, Thin Films and Surface Patterns from Spin-Crossover Materials and Electrical Spin State Control 375 Paulo Nuno Martinho, Cyril Rajnak and Mario Ruben 14.1 Introduction 375 14.2 Nanoparticles and Nanocrystals 376 14.3 Thin Films 387 14.4 Surface Patterns 393 14.5 Electrical Spin State Control 396 14.6 Conclusion 399 15 Ultrafast Studies of the Light-Induced Spin Change in Fe(II)-Polypyridine Complexes 405 Majed Chergui 15.1 Introduction 405 15.2 Properties of Fe(II) Complexes 406 15.3 From the Singlet to the Quintet State 408 15.4 Ultrafast X-Ray Studies 415 15.5 Summary and Outlook 417 16 Real-Time Observation of Spin-Transitions by Optical Microscopy 425 Francois Varret, Ahmed Slimani, Damien Garrot, Yann Garcia and Anil D. Naik 16.1 Introduction 425 16.2 Experimental Aspects 426 16.3 Selected Investigations 429 16.4 Conclusions and Prospects 439 17 Theoretical Prediction of Spin-Crossover at the Molecular Level 443 Robert J. Deeth, Christopher M. Handley and Benjamin J. Houghton 17.1 Introduction 443 17.2 Beginnings: Valence Bond and Ligand Field Theories 443 17.3 Quantum Chemistry 446 17.4 Empirical Methods 449 17.5 Conclusions 452 18 Theoretical Descriptions of Spin-Transitions in Bulk Lattices 455 Cristian, Enachescu, Masamichi Nishino and Seiji Miyashita 18.1 Introduction 455 18.2 Elastic Interaction Models for Spin-Crossover Systems 457 18.3 Mechano-Elastic Model 463 18.4 Conclusions 471 19 Optimizing the Stability of Trapped Metastable Spin States 475 Jean-Francois Letard, Guillaume Chastanet, Philippe Guionneau and Cedric Desplanches 19.1 Introduction 475 19.2 Light-Induced Excited Spin-State Trapping (LIESST) Effect 476 19.3 The T(LIESST) Approach: The Case of Mononuclear Compounds 479 19.4 The T(LIESST) Approach: An Extension to Polynuclear Iron(II) Complexes 487 19.5 Simulation and Extrapolation of a T(LIESST) Experiment 495 19.6 Conclusions 500 20 Piezo- and Photo-Crystallography Applied to Spin-Crossover Materials 507 Philippe Guionneau and Eric Collet 20.1 Introduction 507 20.2 Spin-Crossover and Piezo-Crystallography 507 20.3 Crystallography of Photoexcited SCO Materials 512 21 Spin-Transitions in Metal Oxides 527 Jean-Pascal RUEFF 21.1 Introduction 527 21.2 RIXS: A Probe of the 3d Electronic Properties 530 21.3 Experimental Results 533 21.4 Conclusions and Perspectives 538 References 540 Index

Verlagsort New York
Sprache englisch
Maße 150 x 250 mm
Gewicht 666 g
Themenwelt Naturwissenschaften Chemie
Technik Maschinenbau
ISBN-10 1-118-51930-2 / 1118519302
ISBN-13 978-1-118-51930-1 / 9781118519301
Zustand Neuware
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