About this book
This book describes the luminescence mechanism of polynuclear lanthanide complexes, focusing on energy transfer processes using a combination of experimental and theoretical approaches.
Lanthanide complexes show intense luminescence from the lanthanide ion through sensitization by the organic ligands. The high chromaticity of the emission and the long lifetimes of the complexes are particularly attractive for applications such as organic light-emitting diodes and bioprobes. Polynuclear lanthanide complexes (coordination polymers and clusters) have attracted considerable interest for functionalization by energy transfer between lanthanide ions. At the same time, such extra processes complicate the luminescence mechanism, hindering the rational design of functional polynuclear lanthanide complexes.
Firstly, the book explains the principle of the theoretical methods, and then describes the concentration-quenching mechanism in coordination polymers. It also examines the effect of intrinsic spin–orbit coupling arising from lanthanide ions on the ligand-to-lanthanide energy transfer efficiency and the mechanism of back energy transfer (the opposite of sensitizing energy transfer) in lanthanide clusters. This sets the stage for the final topic: the suppression of back energy transfer by energy transfer between lanthanide ions in lanthanide clusters, which is of critical importance, showing that the lanthanide clusters can be considered a new generation of functional and efficient luminescent material and could also provide a breakthrough in lanthanide photophysics.
- Book Title Energy Transfer Processes in Polynuclear Lanthanide Complexes
- Series Title Springer Theses
- Series Abbreviated Title Springer Theses
- DOI https://doi.org/10.1007/978-981-13-6049-7
- Copyright Information Springer Nature Singapore Pte Ltd. 2019
- Publisher Name Springer, Singapore
- eBook Packages Chemistry and Materials Science Chemistry and Material Science (R0)
- Hardcover ISBN 978-981-13-6048-0
- eBook ISBN 978-981-13-6049-7
- Series ISSN 2190-5053
- Series E-ISSN 2190-5061
- Edition Number 1
- Number of Pages XV, 140
- Number of Illustrations 23 b/w illustrations, 40 illustrations in colour
Theoretical and Computational Chemistry
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