Abstract
The structures of the simplest symmetric primary ethers [(C(n)H(2n+1))(2)O, n = 1-3] determined under high pressure revealed their conformational preferences and intermolecular interactions. In three new polymorphs of diethyl ether (C(2)H(5))(2)O, high pressure promotes intermolecular CH...O contacts and enforces a conversion from the trans-trans conformer present in the α, β and γ phases to the trans-gauche conformer, which is higher in energy by 6.4 kJ mol(-1), in the δ phase. Two new polymorphs of dimethyl ether (CH(3))(2)O display analogous transformations of the CH...O bonds. The crystal structure of di-n-propyl ether (C(3)H(7))(2)O, determined for the first time, is remarkably stable over the whole pressure range investigated from 1.70 up to 5.30 GPa.