Kumar Pandey Indresh, Kumar Abhishek, Choudhury Joyanta
Organometallics & Smart Materials Laboratory, Department of Chemistry, Indian Institute of Science Education and Research Bhopal, Bhopal, 462 066, India.
Chem Asian J. 2020 Mar 16;15(6):904-909. doi: 10.1002/asia.201901805. Epub 2020 Feb 24.
We present herein a CpCo(III)-half-sandwich catalyst system for electrocatalytic CO reduction in aqueous acetonitrile solution. In addition to an electron-donating Cp ligand (Cp*=pentamethylcyclopentadienyl), the catalyst featured a proton-responsive pyridyl-benzimidazole-based N,N-bidentate ligand. Owing to the presence of a relatively electron-rich Co center, the reduced Co(I)-state was made prone to activate the electrophilic carbon center of CO . At the same time, the proton-responsive benzimidazole scaffold was susceptible to facilitate proton-transfer during the subsequent reduction of CO . The above factors rendered the present catalyst active toward producing CO as the major product over the other potential 2e/2H reduced product HCOOH, in contrast to the only known similar half-sandwich CpCo(III)-based CO -reduction catalysts which produced HCOOH selectively. The system exhibited a Faradaic efficiency (FE) of about 70% while the overpotential for CO production was found to be 0.78 V, as determined by controlled-potential electrolysis.
我们在此展示了一种用于在乙腈水溶液中进行电催化CO还原的CpCo(III)半夹心催化剂体系。除了一个供电子的Cp配体(Cp* = 五甲基环戊二烯基)外,该催化剂还具有一个质子响应性的基于吡啶基苯并咪唑的N,N-双齿配体。由于存在相对富电子的Co中心,还原态的Co(I)易于活化CO的亲电碳中心。同时,质子响应性的苯并咪唑支架易于在随后的CO还原过程中促进质子转移。与仅有的已知类似的基于半夹心CpCo(III)的CO还原催化剂选择性地产生HCOOH相反,上述因素使得本催化剂对以CO作为主要产物而非其他潜在的2e/2H还原产物HCOOH具有活性。通过控制电位电解测定,该体系的法拉第效率(FE)约为70%,而产生CO的过电位为0.78 V。
