石油学报(石油加工)
石油學報(石油加工)
석유학보(석유가공)
ACTA PETROLEI SINICA(PETROLEUM PROCESSING SECTION)
2010年
2期
309-313
,共5页
王雨%郑晓宇%张彦珂%蒋庆哲%吴运强
王雨%鄭曉宇%張彥珂%蔣慶哲%吳運彊
왕우%정효우%장언가%장경철%오운강
双子表面活性剂%双十二烷基苯磺酸钠%临界胶束浓度(CMC)%球状胶束%棒状胶束%饱和吸附量(Г_(CMC))
雙子錶麵活性劑%雙十二烷基苯磺痠鈉%臨界膠束濃度(CMC)%毬狀膠束%棒狀膠束%飽和吸附量(Г_(CMC))
쌍자표면활성제%쌍십이완기분광산납%림계효속농도(CMC)%구상효속%봉상효속%포화흡부량(Г_(CMC))
gemini surfactant%dimeric sodium dodecyl benzene sulfonate%critical micelle
采用表面张力法和电导率实验,结合冷冻刻蚀电镜观察等手段,研究了双子表面活性剂双十二烷基苯磺酸钠DSDBS-x(x为双子表面活性剂桥联基团的碳原子数,x为2和6)水溶液的表面特性.30℃下DSDBS-2和DSDBS-6的临界胶束浓度(CMC)分别为1.3×10~(-5)和2.5×10~(-5)mol/L,与对应单体十二烷基苯磺酸钠(SDBS)相比,胶束结构致密.当DSDBS浓度大于4倍CMC后,其水溶液电导率值偏离线性关系,为其胶束由球状胶束向棒状胶束转变所致.DSDBS-6的桥联基团碳链较长,且可以向界面弯曲,NaCl对其饱和吸附量(Г_(CMC))的影响比对DSDBS-2的要大.
採用錶麵張力法和電導率實驗,結閤冷凍刻蝕電鏡觀察等手段,研究瞭雙子錶麵活性劑雙十二烷基苯磺痠鈉DSDBS-x(x為雙子錶麵活性劑橋聯基糰的碳原子數,x為2和6)水溶液的錶麵特性.30℃下DSDBS-2和DSDBS-6的臨界膠束濃度(CMC)分彆為1.3×10~(-5)和2.5×10~(-5)mol/L,與對應單體十二烷基苯磺痠鈉(SDBS)相比,膠束結構緻密.噹DSDBS濃度大于4倍CMC後,其水溶液電導率值偏離線性關繫,為其膠束由毬狀膠束嚮棒狀膠束轉變所緻.DSDBS-6的橋聯基糰碳鏈較長,且可以嚮界麵彎麯,NaCl對其飽和吸附量(Г_(CMC))的影響比對DSDBS-2的要大.
채용표면장역법화전도솔실험,결합냉동각식전경관찰등수단,연구료쌍자표면활성제쌍십이완기분광산납DSDBS-x(x위쌍자표면활성제교련기단적탄원자수,x위2화6)수용액적표면특성.30℃하DSDBS-2화DSDBS-6적림계효속농도(CMC)분별위1.3×10~(-5)화2.5×10~(-5)mol/L,여대응단체십이완기분광산납(SDBS)상비,효속결구치밀.당DSDBS농도대우4배CMC후,기수용액전도솔치편리선성관계,위기효속유구상효속향봉상효속전변소치.DSDBS-6적교련기단탄련교장,차가이향계면만곡,NaCl대기포화흡부량(Г_(CMC))적영향비대DSDBS-2적요대.
The surface properties of gemini surfactant aqueous solution, referred to as dimeric sodium dodecyl benzene sulfonate DSDBS-x, where x was the carbon numbers of the spacer(x=2 and 6), were investigated by using the determinations of surface tension, conductivity and freeze-fracture-transmission-electron-microscopy(FF-TEM) method. It was found that the critical micelle coneentration(CMC) at 30℃ for DSDBS-2 and DSDBS-6 were 1.3 × 10~(-5) and 2.5 × 10~(-5) mol/L, respectively, and their micelle structures were more compact than that of corresponding conventional monomer sodium dodecyl benzene sulfonate (SDBS). With DSDBS concentration increased more than four times of its CMC, the solution conductivity deviated from the expected linear relationship as the consequence of spheroidal micelles transferring into rod-micelles. stronger than that of DSDBS-2, owing to the former's longer carbon chain bending toward to interface easily.
