芦丁硬脂酸酯及芦丁月桂酸酯与 硬脂酸混合单分子膜的成膜性质

The pressure-area isotherms of the two component monolayers of amphiphilic rutin derivatives and stearic acid were studied in terms of their collapse pressures, area per molecule, excess free energy and compressibility as a function of the mole fraction of the stearic acid in the monolayers xSA. Results showed that the addition of stearic acid raised the collapse pressures of both mixed monolayers. With the increase of xSA, the intermolecular forces between the two kinds of molecules in the mixed monolayers of rutin stearate ester (RS) and stearic acid (SA) turned to be the repulsive force from the attractive one. The most stable state and prominent condensation of the RS/SA mixed monolayers was observed at xSA=0.167. The repulsive intermolecular forces existed in the mixed monolayers of rutin laurate ester (RL) and stearic acid (SA) regardless of the composition. The most unstable state and prominent expansion of RC/SA mixed monolayers was observed at xSA=0.5. It was also found out that the compatibility and stability of RS/SA mixed monolayers were better than that of RL/SA mixed monolayers.