Short N⋯O hydrogen bonds in the 1:1 adduct of 4,4′-bipyridyl and oxalic acid

Abstract

Oxalic acid, C2O4H2, and 4,4′-bipyridyl, C10H8N2, crystallize in a 1:1 ratio. The asymmetric unit consists of one oxalic acid (OXA) molecule and one 4,4bipyridyl (BPY) molecule in general positions, together with one half-OXA molecule and one half-BPY molecule; the latter two molecules are centrosymmetric. The mol-ecules are linked in two parallel independent chains by strong O - H⋯N hydrogen bonds. In one chain there is one independent O - H⋯N hydrogen bond [N⋯O = 2.557 (3) Å] and the mol-ecules lie on centres of symmetry and are therefore constrained to have planar central portions. The second chain contains two independent O - H⋯N hydrogen bonds [O⋯N = 2.549 (3) and 2.581 (3) Å] and both mol-ecules are twisted about their central bonds. © 2007 International Union of Crystallography.