Polymorphic behavior of gondoic acid and phase behavior of its binary mixtures with asclepic acid and oleic acid

Abstract

AbstractMolecular properties of polymorphic forms of gondoic acid [cis‐C20:1Δ11ω9 (GOA)] have been studied by X‐ray diffraction (XRD), differential scanning calorimetry (DSC), optical microscopy, and Raman scattering, in comparison to those of six principal unsaturated fatty acids: oleic acid [cis‐C18:1Δ9ω9 (OA)], erucic acid [cis‐C22:1Δ13ω9 (ERA)], petroselinic acid [cis‐C18:1Δ6ω12 (PSA)], asclepic acid [cis‐C18:1Δ11ω7 (APA)], palmitoleic acid [cis‐C16:1Δ9ω7 (POA)], and elaidic acid [trans‐C18:1Δ9ω9 (ELA)]. In addition, phase behavior of binary mixtures of GOA and APA and OA was examined by XRD and DSC. The polymorphic structures of GOA are quite similar to those of APA, ERA, POA, and partly to OA. In particular, DSC and Raman scattering studies have shown that gondoic acid exhibits conformational disordering on heating at the ω‐chain, a chain segment between the double bond and CH3 group, as a transition from all‐trans (γ form) to gauche‐rich (α form) conformations. A miscible mixing phase was observed in the mixture of GOA and APA, yet eutectic phases were observed in the GOA and OA mixtures. This is a remarkable contrast because the binary mixture systems of varying combinations of cis‐unsaturated fatty acids examined so far exhibited either eutectic nature or molecular compound formation. It is expected that specific molecular interactions between GOA and APA that originate from the equivalence of the length of the Δ‐chain, the chain segment between the cis‐double bond and COOH group, and also from the presence of the γ‐α order‐disorder transformation would be operating to form the miscible mixing phase.