Solid-state supramolecular structure of tetrakis(1-(diaminomethylene)thiouron-1-ium) pyromellate

Abstract

The single crystals of tetrakis(1-(diaminomethylene)thiouron-1-ium) pyromellate suitable for the X-ray analysis were grown using a solution growth technique at room temperature. The compound crystallises in the centrosymmetric space group P21/c of the monoclinic system. Asymmetric unit consists of half of the tetrakis(1-(diaminomethylene)thiouron-1-ium) pyromellate molecule. Both independent parts of the 1-(diaminomethylene)-thiouron-1-ium cations are not strictly planar, but twisted. Both planar arms of the cation are oppositely rotated around the CN bonds involving the central N atom of the cation. The arrangement of the oppositely charged components, i.e. 1-(diaminomethylene)-thiouron-1-ium cations and pyromellate(4-) anion is determined by the NH⋯O hydrogen bonds with R22(8) and R21(6) graphs forming supramolecular tetrakis(1-(diaminomethylene)-thiouron-1-ium) pyromellate units that further interact each other forming three dimensional hydrogen bonded network. Hirshfeld surface and the analysis of the 2D-fingerprint plots are illustrating both qualitatively and quantitatively interactions governing the formation of the supramolecular tetrakis(1-(diaminomethylene)-thiouron-1-ium) pyromellate complex as well as the mutual arrangement of the supramolecules in the crystal. The compound was also characterized by the FT-IR and Raman spectroscopy. Assignment of the bands have been supported by the isotropic frequency shift.