Novel building units with bimetallic rings in inorganic/organic hybrid chains and layers

Hydrothermal synthesis has produced three new compounds constructed from novel building units containing vanadium-oxide (or oxyfluoride) subunits linked together via covalently bound cationic copper complexes. Each new compound exhibits novel structural features: [Cu(dipa)][VOF4] (1) incorporates a corner-sharing octahedral vanadium(IV) oxyfluoride chain decorated by copper-(2,2′-dipyridyl amine) complexes which form intra-chain bridges. Within a similar reactant system [Cu(dipa)]2[V6O17] (2) is produced, the structure of which exhibits edge-sharing trigonal bipyramidal vanadium(V) ‘ladder-like’ double chains which are bridged into layers by tetrahedral pyrovanadate dimers together with the copper-(2,2′-dipyridyl amine) complexes. [Cu(py)4]2[V4O12] (3), is a 2-D structure featuring exclusively tetrahedral vanadium(V) in four-membered ring building blocks, linked through octahedral copper-pyridine complexes to form two crystallographically different bimetallic layers.

Hydrothermal synthesis is used to prepare hybrid mixed metal oxides and oxyfluorides with novel extended connectivitiesFigure optionsDownload as PowerPoint slide