The metalloligand approach was used to obtain a novel Cu-II/Zn-II heterobimetallic coordination polymer (CP) 1, based on the carefully designed bispidine ligand L4. CP 1, characterized by single crystal (SC-) and powder X-ray diffraction methods (P-XRD), is constituted by repeating large 32-membered macrocycles forming ribbon-like linear arrays and it features a Cu-II-coordination site occupied by a markedly labile MeCN. We also describe the synthesis and characterization of intermediate metalloligands (with Cu-II, Fe-III, Mn-II, and Pd-II, the latter three obtained as SCs and characterized accordingly) and provide a view of potential intermediate species along the route from metalloligands to heterometallic CPs.
A Bispidine Based CuII/ZnII Heterobimetallic Coordination Polymer
Martina Lippi;Massimo Cametti
2022-01-01
Abstract
The metalloligand approach was used to obtain a novel Cu-II/Zn-II heterobimetallic coordination polymer (CP) 1, based on the carefully designed bispidine ligand L4. CP 1, characterized by single crystal (SC-) and powder X-ray diffraction methods (P-XRD), is constituted by repeating large 32-membered macrocycles forming ribbon-like linear arrays and it features a Cu-II-coordination site occupied by a markedly labile MeCN. We also describe the synthesis and characterization of intermediate metalloligands (with Cu-II, Fe-III, Mn-II, and Pd-II, the latter three obtained as SCs and characterized accordingly) and provide a view of potential intermediate species along the route from metalloligands to heterometallic CPs.File | Dimensione | Formato | |
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