摘要
Interactions of ciprofloxacin hydrochloride(CPFH)with sodium dodecyl sulfate(SDS)were investigated by conductivity measurement in H2O/electrolyte solutions(NaCl,Na2SO4&Na3PO4)over 298.15–318.15 K temperature range(with 5 K interval)considering the human body temperature.In all cases,two critical micelle concentrations(c*)were observed which are increased in the presence of drug and decreased in the presence of salts enunciating the presence of interaction amongst the studied components.For(CPFH+SDS)system in the presence of salt,the c*values at 303.15 K and I=0.50 mmol·kg^-1 followed the order:CNaCl>CNa2SO4>CNa3PO4.TheΔG1,m0 andΔG2,m0values are found to be negative for all systems that show that the micellization process is thermodynamically spontaneous.For(CPFH+SDS)system in water,theΔHm0&ΔSm0 values reveal that the micellization processes is both entropy dominated in almost all cases.In the occurrence of electrolytes,ΔHm0 andΔSm0 values indicate that micellization processes are both entropy&enthalpy restricted at upper temperature but it becomes totally entropy dependent at higher temperature.The higher positiveΔSm0 values indicate the enhanced hydrophobic interaction in presence of salts.The enthalpy-entropy compensation was determined from the linear relationship betweenΔHm0 andΔSm0 values in every state.Different transfer energies as well as compensation temperature and intrinsic enthalpy were also evaluated and the behaviors were comparable to other biological system.
Interactions of ciprofloxacin hydrochloride(CPFH) with sodium dodecyl sulfate(SDS) were investigated by conductivity measurement in H2O/electrolyte solutions(NaCl, Na2SO4& Na3PO4) over 298.15–318.15 K temperature range(with 5 K interval) considering the human body temperature. In all cases, two critical micelle concentrations(c*) were observed which are increased in the presence of drug and decreased in the presence of salts enunciating the presence of interaction amongst the studied components. For(CPFH + SDS) system in the presence of salt, the c*values at 303.15 K and I = 0.50 mmol·kg-1 followed the order: CNaCl>CNa2SO4>CNa3PO4. The ΔG1,m0 and Δ G2,m0values are found to be negative for all systems that show that the micellization process is thermodynamically spontaneous. For(CPFH + SDS) system in water, the Δ Hm0 & Δ Sm0 values reveal that the micellization processes is both entropy dominated in almost all cases. In the occurrence of electrolytes, Δ Hm0 and Δ Sm0 values indicate that micellization processes are both entropy & enthalpy restricted at upper temperature but it becomes totally entropy dependent at higher temperature. The higher positive Δ Sm0 values indicate the enhanced hydrophobic interaction in presence of salts. The enthalpy-entropy compensation was determined from the linear relationship betweenΔ Hm0 and Δ Sm0 values in every state. Different transfer energies as well as compensation temperature and intrinsic enthalpy were also evaluated and the behaviors were comparable to other biological system.
基金
funded by the Deanship of Scientific Research(DSR)
King Abdulaziz University,Jeddah,under grant No.(D-403-130-1441).
作者简介
Corresponding author:Md.Anamul Hoque,E-mail address:ahoque_ju@juniv.edu(M.A.Hoque).
