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.