Abstract
Herein, antibiotic moxifloxacin hydrochloride (MFH) drug interaction with surfactants has been studied by means of the conductometric as well as cloud point (T-CP) measurement techniques in the absence and presence of different electrolytes. In this study sodium dodecylsulfate (SDS) and Tween-80 (Tw-80) were used as anionic and non-ionic surfactants respectively. For pure surfactant (SDS) and (SDS+MFH) mixture two clear critical micelles concentration (c*) values denoted by c*(1) (first) and c*(2) (second) were observed. Variation of the c* values in various systems signifies the interaction among the studied systems. The spontaneous surfactant assembly and stability of that aggregates were illustrated from the negative Delta G(m)(0) values of SDS/(SDS + MFH) in the H2O/H2O + electrolytes medium. From Delta H-m(0) and Delta S-m(0) values it is clear that hydrophobic and electrostatic interactions are present between SDS as well as MFH. Various thermodynamic parameters of micellization were also determined. In the clouding phenomenon of Tw-80, the cloud pint (T-CP) values were decreased with the enhancing content of Tw-80. In the presence of drug + salts, the T-CP values decreased dramatically with additive concentration. The obtaining Delta G(c)(0) values were positive which indicates the non-spontaneity of clouding. On the other hand, the values of Delta H-c(0) and Delta S-c(0) show the presence of electrostatic/ hydrophobic relations among MFH & Tw-80. Various thermodynamic properties of transfer were also determined as well as explained thoroughly for both studied systems. (C) 2020 Published by Elsevier B.V.