Dinitrosyl Iron Complex [K-18-crown-6-ether][(NO)2 Fe(Me PyrCO2 )]: Intermediate for Capture and Reduction of Carbon Dioxide

Abstract

Continued efforts are made for the utilization of CO₂ as a C₁ feedstock for regeneration of valuable chemicals and fuels. Mechanistic study of molecular (electro-/photo-)catalysts disclosed that initial step for CO₂ activation involves either nucleophilic insertion or direct reduction of CO₂ . In this study, nucleophilic activation of CO₂ by complex [(NO)₂ Fe(μ-^Me Pyr)₂ Fe(NO)₂ ]^2- (2, ^Me Pyr=3-methylpyrazolate) results in the formation of CO₂ -captured complex [(NO)₂ Fe(^Me PyrCO₂ )]^- (2-CO₂ , ^Me PyrCO₂ =3-methyl-pyrazole-1-carboxylate). Single-crystal structure, spectroscopic, reactivity, and computational study unravels 2-CO₂ as a unique intermediate for reductive transformation of CO₂ promoted by Ca²⁺ . Moreover, sequential reaction of 2 with CO₂ , Ca(OTf)₂ , and KC₈ established a synthetic cycle, 2 → 2-CO₂ → [(NO)₂ Fe(μ-^Me Pyr)₂ Fe(NO)₂ ] (1) → 2, for selective conversion of CO₂ into oxalate. Presumably, characterization of the unprecedented intermediate 2-CO₂ may open an avenue for systematic evaluation of the effects of alternative Lewis acids on reduction of CO₂ .

Keywords: Lewis acids; carbon dioxide fixation; iron; reduction.