Electrochemical activation of CO₂by MOF-(Fe, Ni, Mn) derivatives of 5-aminoisophthalic acid and the thiazole group influence on its catalytic activity

Abstract: Five new coordination polymers, [Fe(AIP)] (1), [M(L)] [M = Fe (2), Ni (3)], [NiFe(L)] (4), and [Mn(L)] (5) (H2AIP = 5-aminoisophthalic acid, LH2 = 5-((thiazol-2-ylmethyl)amino)isophthalic acid), were synthesized under solvothermal...

“…To identify the CO 2 reduction products, chronoamperometry was carried out with a fixed potential of E = À2.8 V; the released gases were bubbled in a solution containing a known amount of Wilkinson's catalyst, to trap any CO, allowing spectroscopic characterization, 22 and the characteristic carbonyl band was observed by FTIR (Fig. S13, ESI †).…”

Hydrosilylation and electroreduction of CO₂using a zirconocene hydride catalyst

“…To identify the CO 2 reduction products, chronoamperometry was carried out with a fixed potential of E = À2.8 V; the released gases were bubbled in a solution containing a known amount of Wilkinson's catalyst, to trap any CO, allowing spectroscopic characterization, 22 and the characteristic carbonyl band was observed by FTIR (Fig. S13, ESI †).…”

Hydrosilylation and electroreduction of CO₂using a zirconocene hydride catalyst

Anionic 3D Coordination Polymers of Zn(II) with 2,5-Diiodoterephthalate Bridging Ligands