The crystal and molecular structure of tetrakis(cyanomercuri)methane hydrate

Abstract

The crystal structure of tetrakis(cyanomercuri)methane hydrate, C(HgCN) 4 · H 2O, has been determined from diffractometer X-ray intensity data by means of Patterson and Fourier methods and refined by the least-squares technique based on 911 independent reflections to the index R of 0.058 and R ω of 0.065. Crystals are monoclinic holohedral, space group P2 1/ n with Z 4 formula units in the unit cell of dimensions a 8.520(5), b 13.622(8), c 10.783(6) Å, β 92.48(5)°, D obs 4.99 g cm −3, D calc 4.97 g cm −3. The structure consists of discrete molecules of tetrakis(cyanomercuri)methane and molecules of water of crystallization. The bond angles at the methane carbon atom range from 105(2) to 114(3)° and the mean HgC(methane) bond length is 2.05(3) Å, while the distance of all the four mercury atoms from the geometrical centre of the tetrahedron is 2.053(3) Å. The CHgC bond angles range from 175(3) to 178(2)°. The mean value of the HgC(cyanide) bond length is 2.03 Å. The one OH⋯N hydrogen bond per water molecule is 2.77 Å long.