Molecular, 1D and 2D assemblies from hexakis(3-pyridyloxy)cyclophosphazene containing 20-membered metallamacrocyclic motifs

Abstract

The coordination behaviour of hexakis(3-pyridyloxy)cyclophosphazene (L) towards divalent metal ions is described. The reaction of L with hydrated metal nitrates afforded [{N₃P₃(O-C₅H₄N-3)₆}₂{Zn(H₂O)₃(NO₃)}₂{Zn(H₂O)₂(NO₃)}₂]_n[NO₃]_2n·4nH₂O·nCH₃OH (1), [{N₃P₃(O-C₅H₄N-3)₆}₂{Zn(H₂O)₃(NO₃)}₂{Cu(NO₃)}₂]_n[NO₃]_2n·4nH₂O·nCH₃CN (2), [{N₃P₃(O-C₅H₄N-3)₆}₂{(NO₃)Cd-(μ-(NO₃)-Cd(NO₃)₂(μ-(NO₃)Cd(NO₃)}]_n·2nCH₃OH·3nH₂O (3), and [{N₃P₃(O-C₅H₄N-3)₆}₂{Cd(H₂O)₃(NO₃)}₂][NO₃]₂·9H₂O (4). 1 and 2 are one-dimensional coordination polymers while 3 is a two-dimensional coordination polymer. On the other hand 4 is a molecular metallamacrocycle. A common feature of 1–4 is the presence of a 20-membered dimetallamacrocyclic motif constructed through the involvement of a pair of cyclophosphazene ligands through their geminal pyridyloxy substituents. The P–N bond distances in L and its metal complexes 1–4 are nearly the same indicating the flexible nature of the coordination pyridyloxy arms present on the cyclophosphazene scaffold.