Photophysics and structure of selected lanthanide compounds

Photophysics and structure of selected lanthanide compounds

This paper is devoted to photophysical studies of selected lanthanide compounds defining their applicability. The photophysical behaviour of three classes of compounds will be discussed: (1) lanthanide complexes with amino acids, their phosphonic analogues and peptides, (2) lanthanide chelates as ef...

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Bibliographic Details
Published in:Coordination chemistry reviews Vol. 249; no. 21; pp. 2489 - 2509
Main Authors: Gawryszewska, P., Sokolnicki, J., Legendziewicz, J.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2005
Subjects:
Amino acids
Energy transfer
Lanthanide chelates
Peptides
Photophysics
Spectroscopy
Structure
Spectroscopy
Peptides
Lanthanide chelates
Amino acids
Photophysics
Structure
Energy transfer
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Summary:This paper is devoted to photophysical studies of selected lanthanide compounds defining their applicability. The photophysical behaviour of three classes of compounds will be discussed: (1) lanthanide complexes with amino acids, their phosphonic analogues and peptides, (2) lanthanide chelates as efficient luminophores, and (3) new kinds of compound applicable in biomedical assays. The majority of the results reported to date have been obtained for solutions, applying lanthanide ions as a spectroscopic probes in biologically active systems. Thus, our effort is addressed to solid-state spectroscopic and structural investigations. On the other hand advances in the development of efficient luminophores based on molecular light conversion in lanthanide chelates are presented—mainly the results of our group. Attention has been focused on: the radiative and non-radiative processes, the mechanism of the intramolecular energy transfer, the role of the charge–transfer states in this process, the electron–phonon coupling, including the resonance effect, the multi-ion cooperative interactions, and dynamics of the excited states in chiral systems—the phenomena affecting the luminescenscence efficiency. High resolution electron spectroscopy at low temperatures has been particularly useful in determining metal ion symmetry and the number of the sites.
ISSN:0010-8545
1873-3840
DOI:10.1016/j.ccr.2005.06.021