105906-93-2Relevant articles and documents
Structure and Photoisomerization of (E)- and (Z)-Cinnamamides and Their Lewis Acid Complexes
Lewis, Frederick D.,Elbert, Jeffrey E.,Upthagrove, Alana L.,Hale, Paul D.
, p. 553 - 561 (1991)
The spectroscopic properties and photoisomerization reactions of several (E)- and (Z)-cinnamamides have been investigated in the absence and presence of the strong Lewis acid BF3.The (E)-cinnamamides are essentially planar and exist predominantly in the enone s-cis conformation, except in the case of the α-methyl tertiary amide which adopts the s-trans conformation in order to minimize nonbonded repulsion.The (Z)-cinnamamides exist predominantly in the highly nonplanar s-trans conformation.This unusual conformational preference is attributed to intramolecular charge transfer from the aromatic to amide functionality.Photoisomerization efficiencies are dependent upon N-alkylation, aromatic substitution, α-alkylation, and excitation wavelength.These effects are attributed to the existence of two lowest energy ?,?* singlet states (one reactive and one nonreactive) whose relative energies are dependent upon substitution.The cinnamamides form 1:1 complexes with BF3 with equilibrium constants >103.Complexation alters both the electronic structure and photochemical behavior of the cinnamamides.Quantitative E -> Z isomerization has been observed for the BF3 complexes of two tertiary amides.
