Silver(I) nitrate complexes of three tetra­kis-thio­ether-substituted pyrazine ligands: metal–organic chain, network and framework structures

The reaction of the ligand 2,3,5,6-tetra­kis­[(methyl­sulfanyl)­meth­yl]pyrazine (L1) with silver(I) nitrate led to {[Ag(C12H20N2S4)](NO3)}n, (I), catena-poly[silver(I)-μ-2,3,5,6-tetra­kis­[(methyl­sulfan­yl)meth­yl]pyrazine] nitrate], a compound with a metal–organic chain structure. The asymmetric unit is composed of two half ligands, located about inversion centres, with one ligand coordinating to the silver atoms in a bis-tridentate manner and the other in a bis-bidentate manner. The charge on the metal atom is compensated for by a free nitrate anion. Hence, the silver atom has a fivefold S3N2 coordination sphere. The reaction of the ligand 2,3,5,6-tetra­kis­[(phenyl­sulfanyl)­meth­yl]pyrazine (L2) with silver(I) nitrate, led to [Ag2(NO3)2(C32H28N2S4)]n, (II), poly[di-μ-nitrato-bis­{μ-2,3,5,6-tetra­kis­[(phenyl­sulfan­yl)meth­yl]pyrazine}disilver], a compound with a metal–organic network structure. The asymmetric unit is composed of half a ligand, located about an inversion centre, that coordinates to the silver atoms in a bis-tridentate manner. The nitrate anion coordinates to the silver atom in a bidentate/monodentate manner, bridging the silver atoms, which therefore have a sixfold S2NO3 coordination sphere. The reaction of the ligand 2,3,5,6-tetra­kis­[(pyridin-2-yl­sulfanyl)­meth­yl]pyrazine (L3) with silver(I) nitrate led to [Ag3(NO3)3(C28H24N6S4)]n, (III), poly[trinitrato{μ6-2,3,5,6-tetra­kis[(pyri­din-2-ylsulfan­yl)meth­yl]pyrazine}­trisilver(I)], a compound with a metal–organic framework structure. The asymmetric unit is composed of half a ligand, located about an inversion centre, that coordinates to the silver atoms in a bis-tridentate manner. One pyridine N atom bridges the monomeric units, so forming a chain structure. Two nitrate O atoms also coordinate to this silver atom, hence it has a sixfold S2N2O2 coordination sphere. The chains are linked via a second silver atom, located on a twofold rotation axis, coordinated by the second pyridine N atom. A second nitrate anion, also lying about the twofold rotation axis, coordinates to this silver atom via an Ag—O bond, hence this second silver atom has a threefold N2O coordination sphere. In the crystal of (I), the nitrate anion plays an essential role in forming C—H⋯O hydrogen bonds that link the metal–organic chains to form a three-dimensional supra­molecular structure. In the crystal of (II), the metal–organic networks (lying parallel to the bc plane) stack up the a-axis direction but there are no significant inter­molecular inter­actions present between the layers. In the crystal of (III), there are a number of C—H⋯O hydrogen bonds present within the metal–organic framework. The role of the nitrate anion in the formation of the coordination polymers is also examined.