Luminescence of lanthanide ions in coordination compounds and nanomaterials: Fid-Bau Portal

Luminescence of lanthanide ions in coordination compounds and nanomaterials

Bettencourt-Dias, Ana

8.3 Defining the Ln(III) Ion Coordination Sphere through Direct Eu(III) Excitation Luminescence Spectroscopy8.4 Luminescence Studies of Anion Binding in Catalysis and Sensing; 8.5 Luminescence Studies of Ln(III) MRI Contrast Agents; 8.6 Conclusions; References; Chapter 9: Heterometallic Complexes Containing Lanthanides; 9.1 Introduction; 9.2 Properties of a Heteromultimetallic Complex; 9.3 Lanthanide Assemblies in the Solid State; 9.4 Lanthanide Assemblies in Solution; 9.5 Heterometallic Complexes Derived from Bridging and Multi-compartmental Ligands; 9.6 Energy Transfer in Assembled Systems.

Chapter 7: Upconversion of Ln3+-based Nanoparticles for Optical Bio-imaging7.1 Introduction; 7.2 Photophysical Properties of Ln3+ Ions; 7.3 Basic Principles of Upconversion; 7.4 Synthesis of Core and Core-Shell Nanoparticles; 7.5 Characterisation; 7.6 Bio-imaging; 7.7 Upconversion and Magnetic Resonance Imaging; 7.8 Conclusions and Outlook; References; Chapter 8: Direct Excitation Ln(III) Luminescence Spectroscopy to Probe the Coordination Sphere of Ln(III) Catalysts, Optical Sensors and MRI Agents; 8.1 Introduction; 8.2 Direct Excitation Lanthanide Luminescence.

Chapter 3: Circularly Polarised Luminescence3.1 Introduction; 3.2 Theoretical Principles; 3.3 CPL Measurements; 3.4 Survey of CPL Applications; 3.5 Chiral Ln(III) Complexes to Probe Biologically Relevant Systems; 3.6 Concluding Remarks; Acknowledgements; References; Chapter 4: Luminescence Bioimaging with Lanthanide Complexes; 4.1 Introduction; 4.2 Luminescence Microscopy; 4.3 Bioimaging with Lanthanide Luminescent Probes and Bioprobes; 4.4 Conclusions and Perspectives; Acknowledgements; Acronyms and Abbreviations.

Chapter 5: Two-photon Absorption of Lanthanide Complexes: from Fundamental Aspects to Biphotonic Imaging Applications5.1 Introduction; 5.2 Two-photon Absorption, a Third Nonlinear Optical Phenomenon; 5.3 Spectroscopic Evidence for the Two-photon Sensitisation of Lanthanide Luminescence; 5.4 Towards Biphotonic Microscopy Imaging; 5.5 Conclusions; References; Chapter 6: Lanthanide Ion Complexes as Chemosensors; 6.1 Photophysical Properties of LnIII Based Sensors; 6.2 Sensor Design Principles; 6.3 Interactions with DNA and Biological Systems; Abbreviations; References.

Title Page; Copyright; List of Contributors; Preface; Chapter 1: Introduction to Lanthanide Ion Luminescence; 1.1 History of Lanthanide Ion Luminescence; 1.2 Electronic Configuration of the +III Oxidation State; 1.3 The Nature of the f-f Transitions; 1.4 Sensitisation Mechanism; Acknowledgement; Abbreviations; Chapter 2: Spectroscopic Techniques and Instrumentation; 2.1 Introduction; 2.2 Instrumentation in Luminescence Spectroscopy; 2.3 Measurement of Quantum Yields of Luminescence in the Solid State and in Solution; 2.4 Excited State Lifetimes; Acknowledgements; References.

This comprehensive book presents the theoretical principles, current applications and latest research developments in the field of luminescent lanthanide complexes; a rapidly developing area of research which is attracting increasing interest amongst the scientific community. Luminescence of Lanthanide Ions in Coordination Compounds and Nanomaterials begins with an introduction to the basic theoretical and practical aspects of lanthanide ion luminescence, and the spectroscopic techniques used to evaluate the efficiency of luminescence. Subsequent chapters introduce a variety of different app