This paper reports the first systemic investigation on the bimetallic ring coordination polymers based on two structure-related flexible bis(imidazole) ligands, bimb as well as bix [bimb = 1, 4-bis(imidazol-1-yl)-butane, bix = 1, 4-bis(imidazol-1-yl-methylene)-benzene)]. As expected, six new cobalt complexes were generated, namely, [Co2(SCN)4(bimb)2] ( 1), [Co2(L1)2(bimb)2Cl2] ( 2), [Co2(L2)4(bix)2] ( 3), [Co(SCN)2(bimb)2] ( 4), {Co[N(CN)2]2(bimb)2} ( 5), and [Co(L3)(bix)] ( 6) (HL1 = 4-aminobenzoic acid, HL2 = 4-nitrobenzoic acid, and H2L3 = succinic acid). The structures of 1- 3 are three discrete dinuclear ring motifs. Especially, 1 is the first example of 1D pseudo-polyrotaxane formed by S ···S strong interactions based on bis(imidazole) ligands. 4 and 5 exhibit 1D meso-helical chain architecture, in spite of their different space groups. In 6, the discrete dinuclear ring motifs, traversed by μ2-η3-chelating L3 anions, are interconnected by another μ2-η1-bridging L3 anions to form 2D (4, 4) network. The formation of these compounds should be undoubtedly attributed to the preference for cis-bis(imidazole) ligands crystallization resulting in various ring architectures. In addition, compound 6 exhibits antiferromagnetic behavior. [ABSTRACT FROM AUTHOR]