Abstract
Two new charge transfer complexes of cefpodoxime proxetil (CEP) as electron donor and chloranilic acid (CHA) or 2, 3-dichloro 5, 6-dicyano 1, 4-benzoquinone (DDQ) as acceptors have been synthesized and characterized by different physico-chemical techniques. These methods were introduced, for the first time, to study the stability of the expected structures of CEP complexes. The formation of charge transfer reaction between bioactive molecules and or organic molecules is important to understand bioactive molecule-receptor interactions. The solid complexes were synthesized and characterized by infrared spectra, NMR, and differential scanning colometry (DSC) which revealed that the existence of both charge transfer complex were formed between CEP and CHA or DDQ. Based on electronic spectra, Job's method has been used to study the stoichemistry of the formed product and determine the molecular composition of the charge transfer complex. It was found to be 1:1 (donor: acceptor). Different spectroscopic parameters (like: molar extension constant, dipole moment, formation constant molar) were determined to study the stability of the developed complexes. The found results are reasonable for assessment of CEP in pharmaceutical form. The practical study was complemented by Quantum chemical calculations (optimization, and MEP maps) at DFT/B3LYP level of theory.
•The CTC is significant to understand bioactive molecule-receptor interactions.•The charge transfer characteristics of CEP-DDQ and CEP-ChA complexes are investigated.•The formed complexes were characterized by IR, NMR, and DSC.•The physiochemical parameters of the formed complexes were investigated.•Quantum chemical calculations were performed at DFT/B3LYP level are agree with experimental part.