Zusammenfassung
A study on the key parameters involved in the anion-binding process and catalytic activity of the new family of C-H-bond-based, anion-binding bis-triazole catalysts BisTri was carried out. The effects of substitution at the side arms and the central backbone structure of the catalyst were investigated. Electron-deficient 3,5-bis(trifluoromethyl) phenyl groups at the side arms led to the most ...
Zusammenfassung
A study on the key parameters involved in the anion-binding process and catalytic activity of the new family of C-H-bond-based, anion-binding bis-triazole catalysts BisTri was carried out. The effects of substitution at the side arms and the central backbone structure of the catalyst were investigated. Electron-deficient 3,5-bis(trifluoromethyl) phenyl groups at the side arms led to the most strongly bound structures. The evaluation of differently shaped anions showed remarkable binding selectivity of the BisTri derivatives for the chloride anion. Examination of various nucleophiles in a model catalytic alkylation reaction suggested a more complex mechanism than the expected S(N)1, in which the nucleophiles also participate partially in activation of the electrophile. DFT calculations were performed to investigate the relationship between the catalyst conformation and the binding affinity. Finally, in silico design and identification of a new, more efficient BisTri catalyst was accomplished.
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