Tuning the Aggregation of N^N^C Pt(II) Complexes by Varying the Aliphatic Side Chain and Auxiliary Halide Ligand: 1H and 195Pt NMR Investigation

A series of six tridentate cyclometallated N^N^C Pt(II) complexes with different halide auxiliary ligands and different aliphatic side chains have been prepared. All complexes show concentration‐dependent NMR spectra. Their self‐association was studied by a dilution method monitoring both the 1H as...

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Bibliographic Details
Published in:European journal of inorganic chemistry 2019-10, Vol.2019 (38), p.4122-4128
Main Authors: Evstigneev, Maxim P., Lantushenko, Anastasiya O., Yakovleva, Yulia A., Suleymanova, Alfiya F., Eltsov, Oleg S., Kozhevnikov, Valery N.
Format: Article
Language:English
Subjects:
195Pt NMR
Agglomeration
Aggregation
Aliphatic compounds
Chains
Dilution
Dimers
Halides
Inorganic chemistry
Ligands
NMR
NMR dilution studies
Nuclear magnetic resonance
Pt(II) complexes
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Summary:A series of six tridentate cyclometallated N^N^C Pt(II) complexes with different halide auxiliary ligands and different aliphatic side chains have been prepared. All complexes show concentration‐dependent NMR spectra. Their self‐association was studied by a dilution method monitoring both the 1H as well as 195Pt nuclei. Both techniques show similar results validating that 195Pt NMR is an important methodology to study self‐association of potentially any Pt complex regardless of the nature of the ligands. Experimental data allowed to predict the most probable geometry of the dimers and to get insight into the structural and thermodynamic specificity of the aggregation. The in‐depth analysis of the data suggests that the halide auxiliary ligand has no significant influence on self‐association while the effect of the aliphatic side chain depends on the length and the structure of the chain. A series of three complexes with identical tridentate N^N^C cyclometallating ligand but different halide auxiliary ligands have been prepared, and their self‐association was studied by dilution method monitoring both the 1H as well as 195Pt nuclei.
ISSN:1434-1948
1099-0682
DOI:10.1002/ejic.201900821