Electrocatalytic nitrate reduction with Co-based catalysts: comparison of DIM, TIM and cyclam ligands
Hyuk‐Yong Kwon, Sarah E. Braley, Jose P. Madriaga, Jeremy M. Smith, Elena Jakubı́ková
Abstract
is inactive for the reduction of nitrate. As an initial step to understanding what structural and electronic properties are important for efficient electrocatalysts for nitrate reduction, density functional theory (DFT) was employed to investigate the electronic structure of the three Co complexes, with the reduction potentials calibrated to experimental results. Moreover, DFT was employed to explore four different reaction mechanisms for the first steps of nitrate reduction. The calculated reaction barriers reveal how a combination of electron transfer in a redox non-innocent complex, substrate binding, and intramolecular hydrogen bonding dictates the activity of Co-based catalysts toward nitrate reduction.