AI Article Synopsis
- - This research focuses on new polynuclear complexes that feature a core made of three metal atoms (Cu, Ag, or Au) linked by a specific type of ligand, resulting in unique triple-stranded helical structures.
- - An in-depth analysis using spectroscopic methods and quantum chemical calculations reveals how these complexes behave in both their ground and excited electronic states, noting significant distortions in their structures when excited.
- - Time-resolved IR spectroscopy studies show that the complexes have unusual triplet state lifetimes, particularly highlighting that the gold-containing complex has a lifetime over five times longer than that of the copper complex, indicating a cooperative effect between the metal and ligand components.
Article Abstract
This work reports on a series of polynuclear complexes containing a trinuclear Cu, Ag, or Au core in combination with the fac-isomer of the metalloligand [Ru(pypzH) ](PF ) (pypzH=3-(pyridin-2-yl)pyrazole). These (in case of the Ag and Au containing species) newly synthesized compounds of the general formula [{Ru(pypz) } M ](PF ) (2: M=Cu; 3: M=Ag; 4: M=Au) contain triple-stranded helical structures in which two ruthenium moieties are connected by three N-M-N (M=Cu, Ag, Au) bridges. In order to obtain a detailed description of the structure both in the electronic ground and excited states, extensive spectroscopic and quantum chemical calculations are applied. The equilateral coinage metal core triangle in the electronic ground state of 2-4 is distorted in the triplet state. Furthermore, the analyses offer a detailed description of electronic excitations. By using time-resolved IR spectroscopy from the microsecond down to the nanosecond regime, both the vibrational spectra and the lifetime of the lowest lying electronically excited triplet state can be determined. The lifetimes of these almost only non-radiative triplet states of 2-4 show an unusual effect in a way that the Au-containing complex 4 has a lifetime which is by more than a factor of five longer than in case of the Cu complex 2. Thus, the coinage metals have a significant effect on the electronically excited state, which is localized on a pypz ligand coordinated to the Ru atom indicating an unusual cooperative effect between two moieties of the complex.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7496093 | PMC |
| http://dx.doi.org/10.1002/chem.202001544 | DOI Listing |
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