Highly Coordinated Heteronuclear Calcium–Iron Carbonyl Cation Complexes [CaFe(CO) <sub> <i>n</i> </sub> ] <sup>+</sup> ( <i>n</i> =5–12) with d−d Bonding
Xiaoyang Jin, Yuna Bai, Yangyu Zhou, Guanjun Wang, Lili Zhao, Mingfei Zhou, Gernot Frenking
Abstract
Abstract Heteronuclear calcium–iron carbonyl cation complexes in the form of [CaFe(CO) n ] + ( n =5–12) are produced in the gas phase. Infrared photodissociation spectroscopy in conjunction with quantum chemical calculations confirm that the n =10 complex is the coordination saturated ion where a Fe(CO) 4 fragment is bonded with a Ca(CO) 6 fragment through two side‐on bridging carbonyl ligands. Bonding analysis indicates that it is best described by the bonding interactions between a [Ca(CO) 6 ] 2+ dication and an [Fe(CO) 4 ] − anion forming a Fe→Ca d−d dative bond in the [(CO) 6 Ca–Fe(CO) 4 ] + structure, which enriches the pool of experimentally observed complexes of calcium that mimic transition metal compounds. The molecule is the first example of a heteronuclear carbonyl complex featuring a d−d bond between calcium and a transition metal.