Application, structure, salts and complexes of lidocaine: a review. Part V. structure of bis(lidocaine) tetrachloridocuprate(II)

Abstract

The review focuses on lidocaine (2-(diethylamino)-N-(2,6-dimethylphenyl)acetamide): in the first part, its use in various branches of medicine, as well as the structure of lidocaine, its salts and molecular complexes was discussed; in the second part the use of lidocaine in the composition of deep-eutectic solvents (DES), DES-microemulsions and complexes of lidocaine with zinc, copper, cobalt, platinum and iron was considered; in the 3rd the structure of bis(lidocaine) tetrachlorido-zincate(II) was considered, in the 4th part the structure of bis(lidocaine) tetrachloridoferrate(III) chloride was discussed, this part reports on the synthesis and structure of bis(lidocaine) tetra-chloridocuprate(II), (LidH)2[CuCl4], which crystallizes in the monoclinic space group P21/c with a = 15.7831(2), b = 24.2992(2), c = 17.8748(2) Å, β = 104.874(1)°, V = 6625.58(13) Å3, Z = 8, and Dc = 1.355 Mg/m3. The coordination of the Cu2+ ions with chlorine atoms generates two differently distorted tetrahedral anions [CuCl4]2–, while four protonated cations LidH+ remain in an outer coordination sphere. Anions and cations are associated by hydrogen bonds of the N–H···Cl type to form the 2{(LidH)2[CuCl4]} dimer, in which the distance between two copper atoms is 8.95 Å (c/2). With the help of hydrogen bonds of the type N–H···O and N–H·Cl, each dimer is connected with four neighboring dimers, resulting in a three-dimensional structure in which dimers lie at an angle of 28.39° to the a crystallographic axis in the ab planes located at a distance of 10.67 Å from each other.