Abstract
A series heterodinuclear catalysts, operating without co‐catalyst, show good performances for the ring opening copolymerization (ROCOP) of cyclohexene oxide and carbon dioxide. The complexes feature a macrocyclic ligand designed to coordinate metals such as Zn(II), Mg(II) or Co(III), in a Schiff base ‘pocket’, and Na(I) in a modified crown‐ether binding ‘pocket’. The 11 new catalysts are used to explore the influences of the metal combinations and ligand backbones over catalytic activity and selectivity. The highest performance catalyst features the Co(III)Na(I) combination, [N,N′‐bis(3,3’‐triethylene glycol salicylidene)‐1,2‐ethylenediamino cobalt(III) di(acetate)]sodium (7), and it shows both excellent activity and selectivity at 1 bar carbon dioxide pressure (TOF=1590 h−1, >99 % polymer selectivity, 1 : 10: 4000, 100 °C), as well as high activity at higher carbon dioxide pressure (TOF=4343 h−1, 20 bar, 1 : 10 : 25000). Its rate law shows a first order dependence on both catalyst and cyclohexene oxide concentrations and a zeroth order for carbon dioxide pressure, over the range 10–40 bar. These new catalysts eliminate any need for ionic or Lewis base co‐catalyst and instead exploit the coordination of earth‐abundant and inexpensive Na(I) adjacent to a second metal to deliver efficient catalysis. They highlight the potential for well‐designed ancillary ligands and inexpensive Group 1 metals to deliver high performance heterodinuclear catalysts for carbon dioxide copolymerizations and, in future, these catalysts may also show promise in other alternating copolymerization and carbon dioxide utilizations.
Highlights
The efficient conversion of carbon dioxide to useful products is a lynchpin of sustainable chemistry.[1]
The macrocyclic pro-ligand, LH2, was synthesized, according to literature procedures, and isolated in 43 % yield.[14a,g] The complexes were synthesized using a new approach where LH2 was first reacted with sodium acetate, the relevant diamine and, subsequently, the second metal acetate to form the new heterodinuclear complexes in good/excellent yields
Complex 11 features a macrocyclic ligand with a diamine linker and was prepared by reduction of the free Schiff base macrocycle (NaBH4) with the new ligand being reacted with sodium and zinc acetate, at room temperature in methanol, to yield 11 in 65 % yield
Summary
The efficient conversion of carbon dioxide to useful products is a lynchpin of sustainable chemistry.[1]. 11 forms a coordination polymer with bridging acetate ligands, either causing, or resulting from, significant distortion of the solid-state structure, with highly unsymmetrical binding of sodium to the crown-ether moiety (Figure S60).
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