Functionalization of CPO-27-Ni through metal hexacarbonyls: The role of open Ni2+ sites

Cr(CO)6 and Mo(CO)6 have been used as precursors to obtain grafted (η6-arene) M(CO)3 species inside the CPO-27-Ni material. The presence of open Ni(II) sites in the MOF scaffold promotes distinctive reactivities with respect to that observed previously on other MOFs (MOF-5 and UiO-66). The formation of two organometallic M(CO)3(η6-arene) conformers (staggered and eclipsed) has been considered, also taking into account data obtained by a recent theoretical work. IR spectroscopy shows how open metal sites in a MOF structure can destabilize metal carbonyl molecules, favoring CO elimination and acting as CO scavenger, which fastens the decomposition and frustrate the reverse reaction. The work can open new studies on precursors of catalytic species stabilized inside MOFs cages.

Graphical abstractRole of open Ni2+ sites for fast reactivity of M(CO)6 into porous coordination polymers to give highly stable BzM(CO)3 species. A spectroscopic study.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Grafting of Cr- and Mo-containing organometallic species on a MOF having exposed metal sites. ► Characterization of the grafted species by means of FTIR. ► Reversibility of the grafted species verified by IR spectroscopy.