DFT and TD-DFT theoretical studies on photo-induced electron transfer process on [Cefamandole].C60 nano-complex

摘要

Graphical abstract Display Omitted Highlights ? The interaction of C60 fullerene as an electron recipient with the Cefamandole antibiotic was investigated in both ground and excited states using DFT and TD-DFT methods. ? The study of the interaction of C60 and Cefamandole via electron localization function (ELF) and reduced density gradient (RDG). ? The study of NBO analysis and absorption and emission spectrum via CAM-B3LYP in the TD-SCF state. ? The photoinduced electron transfer (PET) process and excited state calculations on the basis of electron hole theory were investigated using the electron hole theory. ? The PET process can be used as a detection factor after the Cefamandole delivery. Abstract The C60 fullerene displays a considerable electronegativity. It has a unique photophysical and electrochemical behavior that can be used as a suitable drug carrier. In the present study, the interaction of C60 fullerene as an electron recipient with the Cefamandole antibiotic was investigated in both ground and excited states using DFT and TD-DFT methods. The study of the interaction of C60 and Cefamandole via electron localization function (ELF) and reduced density gradient (RDG) revealed that the complex formation is of van der Waals type. The data from natural bonding orbitals (NBO) analysis also confirmed the interaction type. The study of absorption and emission spectrum via CAM-B3LYP in the TD-SCF state showed that the emission peak of C60 fullerene in the 591.73nm after the complex formation results in the extinction of this emission spectrum due to charge transfer (CT) from chelator to fluorophore. The photoinduced electron transfer (PET) process was investigated using the electron hole