Charles Explorer logo
🇬🇧

Novel organic NLO material bis(N-phenylbiguanidium(1+)) oxalate - A combined X-ray diffraction, DSC and vibrational spectroscopic study of its unique polymorphism

Publication at Faculty of Science, Faculty of Mathematics and Physics |
2017

Abstract

Three polymorphic modifications of bis(N-phenylbiguanidium(1+)) oxalate are reported, and their characterization is discussed in this paper. The non-centrosymmetric bis(N-phenylbiguanidium(1+)) oxalate (I), which was obtained from an aqueous solution at 313 K, belongs to the monoclinic space group Cc (a = 6.2560(2) A, b = 18.6920(3) A, c = 182980(5) A, beta = 96249(1)degrees, V = 2127.0(1) A(3), Z = 4, R = 0.0314 for 4738 observed reflections).

The centrosymmetric bis(N-phenylbiguanidium(1+)) oxalate (II) was obtained from an aqueous solution at 298 K and belongs to the monoclinic space group P2(1)/n (a = 6.1335(3) A, b = 11.7862(6) A, c = 14.5962(8) A, beta = 95.728(2)degrees, V= 1049.90(9) A(3), Z = 4, R = 0.0420 for 2396 observed reflections). The cooling of the centrosymmetric phase (II) leads to the formation of bis(N-phenylbiguanidium(1+)) oxalate (III) (a = 6.1083(2) A, b 11.3178(5) A, c= 14.9947(5) A, beta = 93.151(2), V = 1035.05(8) A(3), Z = 4, R = 0.0345 for 2367 observed reflections and a temperature of 110 K), which also belongs to the monoclinic space group P2(1)/n.

The crystal structures of the three characterized phases are generally based on layers of isolated N-phenylbiguanidium(1 +) cations separated by oxalate anions and interconnected with them by several types of N-H-O hydrogen bonds. The observed phases generally differ not only in their crystal packing but also in the lengths and characteristics of their hydrogen bonds.

The thermal behaviour of the prepared compounds was studied using the DSC method in the temperature range from 90 K up to a temperature near the melting point of each crystal. The bis(N-phenylbiguanidium(1 +)) oxalate (II) crystals exhibit weak reversible thermal effects on the DSC curve at 147 K (heating run).

Further investigation of this effect, which was assigned to the isostructural phase transformation, was performed using FTIR, Raman spectroscopy and X-ray diffraction analysis in a wide temperature range.