Non-negligible Axial Ligand Effect on Electrocatalytic CO 2 Reduction with Iron Porphyrin Complexes.
Jiancong ZhengDexia ZhouJinxiu HanJing LiuRui CaoHaitao LeiHongtao BianYu FangPublished in: The journal of physical chemistry letters (2022)
Iron(III) porphyrin complexes have been demonstrated as one of the efficient molecular catalysts for the electrochemical reduction of CO 2 . However, the role of axial ligands coordinated with a metal center in the complex on the electrochemical CO 2 reduction activity has not been fully explored yet. Herein, iron(III) tetraphenylporphyrin thiocyanate (FeTPP-SCN) is synthesized from a commercially available catalyst of FeTPP-Cl by a counteranion exchanging reaction. Cyclic voltammetry measurements showed that the catalytic activity of FeTPP-SCN is noticeably suppressed in the DMF solutions. The structural dynamics of the axial ligand in FeTPP-SCN are further examined by the FTIR and ultrafast IR spectroscopies, where the SCN ligand is employed as the local vibrational probe. Vibrational relaxation measurements showed that the reorientational dynamics of SCN ligands was strongly restricted in DMF solution, suggesting that the subtle electrostatic interaction between the ligands and metal center in the complex can have a non-negligible effect on its catalytic activity.