高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2014年
5期
1112-1118
,共7页
木质素磺酸钠%吸附特性%LB膜%脂肪醇
木質素磺痠鈉%吸附特性%LB膜%脂肪醇
목질소광산납%흡부특성%LB막%지방순
sodium lignosulfonate%adsorption properties%langmuir-blodgett film%fatty alcohol
为了深入研究木质素磺酸钠在气/液界面上的吸附特性,采用Langmuir-Blodgett (LB)膜天平成功地将木质素磺酸钠 Langmuir 膜以 Y-型膜转移到固体石英玻片上,并采用紫外分光光度仪对其表征。通过研究木质素磺酸钠的π-A曲线得出其 LB 膜的制备条件:溶液浓度为10 g?L-1,亚相为0.01 mol?L-1 CdCl2,进样量为50μL,划障速率为10 mm?min-1。通过添加5%(wt)的脂肪醇与木质素磺酸钠形成复合物,改变了木质素磺酸钠的分子构型,促使更多的木质素磺酸钠分子吸附于气/液界面,形成排列更加有序的Lamgmuir膜,长链脂肪醇对木质素磺酸钠吸附性能具有一定的促进效果,其促进效果随着醇的碳链增长而增强。
為瞭深入研究木質素磺痠鈉在氣/液界麵上的吸附特性,採用Langmuir-Blodgett (LB)膜天平成功地將木質素磺痠鈉 Langmuir 膜以 Y-型膜轉移到固體石英玻片上,併採用紫外分光光度儀對其錶徵。通過研究木質素磺痠鈉的π-A麯線得齣其 LB 膜的製備條件:溶液濃度為10 g?L-1,亞相為0.01 mol?L-1 CdCl2,進樣量為50μL,劃障速率為10 mm?min-1。通過添加5%(wt)的脂肪醇與木質素磺痠鈉形成複閤物,改變瞭木質素磺痠鈉的分子構型,促使更多的木質素磺痠鈉分子吸附于氣/液界麵,形成排列更加有序的Lamgmuir膜,長鏈脂肪醇對木質素磺痠鈉吸附性能具有一定的促進效果,其促進效果隨著醇的碳鏈增長而增彊。
위료심입연구목질소광산납재기/액계면상적흡부특성,채용Langmuir-Blodgett (LB)막천평성공지장목질소광산납 Langmuir 막이 Y-형막전이도고체석영파편상,병채용자외분광광도의대기표정。통과연구목질소광산납적π-A곡선득출기 LB 막적제비조건:용액농도위10 g?L-1,아상위0.01 mol?L-1 CdCl2,진양량위50μL,화장속솔위10 mm?min-1。통과첨가5%(wt)적지방순여목질소광산납형성복합물,개변료목질소광산납적분자구형,촉사경다적목질소광산납분자흡부우기/액계면,형성배렬경가유서적Lamgmuir막,장련지방순대목질소광산납흡부성능구유일정적촉진효과,기촉진효과수착순적탄련증장이증강。
In order to investigate the adsorption properties of sodium lignosulfonate at the gas/liquid interface, Langmuir-Blodgett film balance (LB film balance) was used to transfer sodium lignosulfonate Langmuir film to solid quartz slide in the form of Y-type. The LB film was characterized by the Ultraviolet-visible spectrophotometer. The preparation conditions obtained by investigating the π-A curves of sodium lignosulfonate as follows. The concentration of sodium lignosulfonate solution was 10 g?L-1. The subphase was 0.01 mol?L-1 CdCl2. The injection volume was 50μL and the barrier rate was 10 mm?min-1. When adding 5%of fatty alcohol, the sodium lignosulfonate and fatty alcohol compounds were formed and the molecular construction of sodium lignosulfonate was changed, which improved the adsorption amount of sodium lignosulfonate molecules onto the gas/liquid interface, leading to the formation of a more orderly LB film. The adsorption properties of sodium lignosulfonate can be enhanced with increased number of carbon chain.