Abstract
AbstractIn order to investigate the mechanism of the asymmetric interaction between optically active polymers and small molecules, optically active copolymers of N‐acrylyl L‐amino acids(N‐acrylyl‐L‐phenylalanine, N‐acrylyl‐L‐tryptophan, and N‐acrylyl‐L‐leucine, respectively) and N,N′‐hexamethylene diacrylylamide were synthesized, and interaction of these polymers with the optical isomers of phenylalanine and tryptophan was investigated. In the interaction of these acidic polymers with amino acids performed at pH 5.0, significant difference in amount of adsorption between the D and L isomers of amino acids were observed, and the L form of amino acids was adsorbed preferentially. The interaction between optically active small molecules was also investigated: these results showed a similarity to the results for interaction between optically active polymers and amino acids. In some instances of asymmetric interaction the influence of hydrophobic interaction between a polymer and substrate was clearly perceived. The stereoselective effects on the asymmetric interaction are discussed.
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