Schiff-base template condensation of 2,6-diacetylpyridine with the diamine 3,3′-diaminodipropylamine on Ag+, Pb2+, Ca2+, or Sr2+ led to binuclear Ag+ and Pb2+ and mononuclear Ca2+ and Sr2+ complexes of the 28-membered ligand H2L. A series of binuclear CuII complexes of this macrocycle, including [Cu2(H2L)(NCS)4], were prepared by transmetallation in acetonitrile solution. A complex of formula Cu2(HL)(BPh4)3·2MeCN was prepared from [Sr(H2L)][BPh4]2 and Cu(O2CMe)2 in the presence of excess NaBPh4. This cation was characterised by e.s.r. as a dicopper(II) complex of the singly deprotonated ligand H L–. The complex [Cu2(L)(HNCS)2][BPh4]2·1.5MeCN was prepared, which showed νasym(NCS) at 1 992 cm–1, characteristic of bridging thiocyanate. A single-crystal X-ray structure determination was carried out. Crystals were triclinic, space group P with a= 14.695(11), b= 14.051(11), c= 20.721(11)A, α=111.5(1), β= 98.8(1), γ= 100.3(1)°, and Z= 2.3 969 Independent reflections above background have been measured on a diffractometer and the structure refined to R= 0.089. The unit cell contains two independent cations both with imposed symmetry, four BPh4– anions and solvent molecules. In both cations the Cu ⋯ Cu distance is 7.25 A. Each copper atom is bonded to four nitrogen atoms of the macrocycle and nitrogen of a terminal thiocyanate. The Cu–N–C(S) angles were unusually small at 100(2) and 109(2)°. We believe that the explanation for the correlated phenomenon of small CU–N–C angle and a low value for the νasym(NCS) absorption is that proton transfer has occurred from the co-ordinated NH group to the NCS ion, making this a complex of thiocyanic acid with the macrocyclic ligand being in the doubly deprotonated form L2–.