Electronic Influence of Substitution on the Pyridine Ring within NNN Pincer-Type MoleculesShow full item record
Title | Electronic Influence of Substitution on the Pyridine Ring within NNN Pincer-Type Molecules |
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Author | Schwartz, Timothy |
Date | 2020 |
Abstract | Pincer molecules are of increasing interest due to the modular nature of modification and range of reactivity observed when coordinated to metal ions. A subset within the family of pincer molecules use a pyridine group to bridge the outer two arms as well as provide a N-donor atom for metal binding. While the arm appendages have been studied extensively, little research has been conducted on the electronic effects of the central, substituted pyridine systems. Therefore, a series of NNN pincer-type ligands with substitution on the 4-position of the pyridine ring with - OH, -OBn, -H, -Cl, and -NO2 functional groups were synthesized and characterized through NMR spectroscopy and ESI-HRMS. Each pincer was metalated with Cu(II) salts and were evaluated through X-ray diffraction analysis, cyclic voltammetry, and density functional theory analysis. The results indicate that the relatively unstudied -OBn group demonstrates both electron- withdrawing (XRD bond lengths) and electron-donating (NMR spectroscopy) properties. The - NO2 pincer shows a redox event within experimental windows evaluated, in contrast to the other congeners studied. In addition, electron-donating groups increase the electron density around the Cu(II) center based on DFT studies and cyclic voltammetry. These findings can be applied to other pyridine-based pincer systems when considering ligand design and warrants future characterization of 4-position substituted pyridines. |
Link | https://repository.tcu.edu/handle/116099117/40334 |
Department | Chemistry and Biochemistry |
Advisor | Green, Kayla |
Additional Date(s) | 2020-05-19 |
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- Undergraduate Honors Papers [1362]
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