Unusual conformations of 1,3‐dialk­oxy­thia­calix[4]arenes in the solid state

The structures of three syn‐1,3‐dialkoxy­thia­calix4]arenes with unusual conformations in the solid state are reported. The pinched cone conformation of syn‐2²,4²‐dihydroxy‐1²,3²‐bis­(prop‐2‐enyl­oxy)thia­calix4]arene, C₃₀H₂₄O₄S₄, (3a), is stabilized by two intra­molecular hydrogen bonds, remarkably formed from both OH groups to the same ether O atom. In syn‐2²,4²‐dihydroxy‐1⁵,2⁵,3⁵,4⁵‐tetra­nitro‐1²,3²‐bis­(prop‐2‐enyl­oxy)thia­calix4]arene acetone disolvate, C₃₀H₂₀N₄O₁₂S₄·2C₃H₆O, (3b1), the mol­ecule is found in the 1,3‐alternate conformation. The crystallographic C2 symmetry is due to a twofold rotation axis running through the centre of the calixarene ring. The hydroxy groups cannot form intra­molecular hydrogen bonds as in (3a) and both are bonded to an acetone solvent mol­ecule. The mol­ecule of the pseudo‐polymorph of (3b1) in which the same compound crystallized without any solvent, viz. (3b2), is located on a crystallographic mirror plane. Only one of the two hydroxy groups forms a hydrogen bond, and this is with a nitro group of a neighbouring mol­ecule as acceptor. Mol­ecular mechanics calculations for syn‐1,3‐diethers suggest a preference of the 1,3‐alternate over the usual cone conformation for thia­calix4]arene versus calix4]arene and for para‐nitro versus para‐H derivatives.