Structures, spectroscopic studies and solid-state thermal transformations of coordination polymers from P4Se3 and CuX (X=Cl, Br, I)

The formation of coordination polymers (CuCl)P4Se3 (1), (CuBr)3(P4Se3)2 (2), (CuI)3(P4Se3)2 (3) and (CuI)P4Se3 (4), from solutions of copper(I) halides and P4Se3 by diffusion methods has been studied. The new compounds were characterized by X-ray crystallography, solid-state 31P MAS NMR and Raman spectroscopy. Theoretical studies on the DFT level in the crystalline phase allowed the unequivocal assignment of the recorded Raman shifts between 200 and 480 cm−1. The structure of 1 consists of a 2D network of castellated [CuCl]n chains and bidentate P4Se3 molecules. The 3D network of 2 comprises [CuBr]n chains, which are linked by tridentate P4Se3 molecules. Compound 3 is a three-dimensional polymer composed of four-membered (CuI)2 rings and castellated [CuI]n chains, which are linked by tridentate P4Se3 molecules involving two basal and the apical P atoms. Thermal conversion of 1 at 230 °C gives (CuCl)3(P4Se3)2 (5), which is isostructural with 2. The thermal conversion of (CuI)3P4S3, which was studied for comparison gave at 371 °C (CuI)3P4S4, Cu3PS4 and small amounts of Cu6PS5I.

Graphical AbstractNew coordination polymers have been prepared and characterized by the reaction of P4Se3 and copper(I) halides solutions under diffusion conditions.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Coordination polymers from P4Se3 and copper(I) halide are described. ► Solid-state phases are prepared from solution by interdiffusion techniques. ► One-, two- and three-dimensional polymers are formed. ► Up to three P atoms are involved in coordination to copper. ► Application of 31P MAS NMR spectroscopy.