141171-25-7Relevant articles and documents
Organic reactions in liquid-crystalline solvents. Regiochemical control of bimolecular pericyclic reactions by cholesteric and smectic liquid-crystalline solvents
Leigh, William J.,Scott Mitchell
, p. 5005 - 5010 (2007/10/02)
The addition reactions of N-phenyl, N-para-biphenyl, and N-para,para′-terphenyl-maleimide with 7-dehydrocholesteryl acetate have been carried out in the isotropic and cholesteric liquid crystalline phases of a of steroidal mesogens, and in the isotropic, smectic A, and smectic B of 4,4′-dialkylbiphenyl mesogens at temperatures 180 and 240 °C. In isotropic solvents, mixtures of four adducts are obtained, in relative yields that are essentially independent of the maleimide substituent. The three major products (two ene-adducts and one Diels-Alder adduct) are formed via transition states in which the long molecular axes of the reactants are oriented perpendicular to one another, while the fourth (minor) product is an ene-adduct formed via a transition state with a parallel relative orientation of the reactants' long molecular axes. The relative yield of the latter product is enhanced when the reaction is carried out in cholesteric or smectic liquid crystalline solvents, to an extent which correlates with both the degree of order possessed by the liquid crystal and the molecular length of the N-arylmaleimide employed. For example, this adduct is the major product of reaction of N-para,para′-terphenylmaleimide with 1 in the cholesteric of cholesteryl para-chlorobenzoate at 200 °C. Studies of the temperature dependence of the product distributions afford estimates of the difference in enthalpy and entropy between parallel perpendicular transition states in the cholesteric phase. The effect of the smectic B phase on the activation to be smaller than that of the cholesteric phase; it is suggested that this is due to poor solubility of the reactants in the smectic phase, which leads to complex variations in reactant solubilizatton and reactivity as a function of temperature. The sweetic A phase of this mesogen exerts much greater control on reactivity than the cholesteric phases at 240 °C.