AI Article Synopsis
- The study investigates the magnetic properties of various cobalt(II) complexes using techniques like EPR, ESEEM, ENDOR, and NMR.
- It compares several ligands, including the parent compound and its pyrazole-substituted derivatives, revealing key insights into electron density and geometry-related magnetic resonance effects.
- Findings suggest the importance of apical atom positioning and how it influences the stability and behavior of the complexes in solution, particularly emphasizing the association of the BF counterion.
Article Abstract
Paramagnetic resonance studies (EPR, ESEEM, ENDOR, and NMR) of a series of cobalt(II) bis-trispyrazolylmethane tetrafluoroborates are presented. The complexes studied include the parent, unsubstituted ligand (Tpm), two pyrazole-substituted derivatives (4Me and 3,5-diMe), and tris(1-pyrazolyl)ethane (Tpe), which includes a methyl group on the apical carbon atom. NMR and ENDOR establish the magnitude of H hyperfine couplings, while ESEEM provides information on the coordinated N. The data show that the pyrazole 3-position is more electron rich in the Tpm analogues, that the geometry about the apical atom influences the magnetic resonance, and that apical atom geometry appears more fixed in Tpm than in Tp. NMR and ENDOR establish that the BF counterion remains associated in fluid solution. In the case of the Tpm complex, it appears to associate in solution, in the same position it occupies in the X-ray structure.
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| http://dx.doi.org/10.1021/acs.inorgchem.6b02520 | DOI Listing |
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