博碩士論文 88321032 完整後設資料紀錄

DC 欄位 語言
DC.contributor化學工程與材料工程學系zh_TW
DC.creator何怡瑱zh_TW
DC.creatorYi- Chan Hoen_US
dc.date.accessioned2001-6-21T07:39:07Z
dc.date.available2001-6-21T07:39:07Z
dc.date.issued2001
dc.identifier.urihttp://ir.lib.ncu.edu.tw:88/thesis/view_etd.asp?URN= 88321032
dc.contributor.department化學工程與材料工程學系zh_TW
DC.description國立中央大學zh_TW
DC.descriptionNational Central Universityen_US
dc.description.abstract本研究主要探討25 下,DMPC/PF-127(重量比為34:4、34:14和34:34)之Gibbs’吸附單分子層和PF-127分子吸附於三種不同單分子層(DMPC、DMPC/Vit-E及DMPC/cholesterol)的氣/液界面行為。首先就DMPC/PF-127 Gibbs’吸附單分子層系統而言,主要進行平衡表面張力量測和表面壓-每分子佔據面積等溫線(Π-A isotherm)的實驗。在所得的結果中,平衡表面張力隨著 PF-127添加量的增加呈現正比的線性關係。配合Gibbs表面過剩濃度關係式,可得表面過剩濃度和分子佔據面積。混合單分子層表面壓-每分子佔據面積的量測中,隨著PF-127添加量的增加,等溫線向右平移且有相變區(liquid-expanded transition liquid-condensed)的發生。 PF-127分子吸附在DMPC、DMPC/Vit-E、DMPC/ cholesterol三種不同單分子層的行為,則是藉由量測表面壓隨時間的變化的量測和表面壓-每分子佔據面積等溫線來進行研究。PF-127吸附在DMPC單分子層系統中,不同起始表面壓之表面壓隨時間變化的結果顯示,平衡表面壓與PF-127添加量呈正比關係。對於DMPC/Vit-E和DMPC/cholesterol混合單分子層系統,平衡表面壓的範圍分別是從 15.8?28.3mN/m和 20.3~27.7mN/m,顯示添加維他命E和膽固醇改變分子間排列距離,使PF-127吸附於單分子層的表面壓產生差異。PF-127吸附平衡後之Π-A等溫線的結果顯示:(1)等溫線中有相變區的發生;(2)曲線向右平移,表示PF-127分子可能吸附或嵌入單分子層中,但因吸附的不夠緊或嵌入的不深,在高表面壓時,PF-127易被擠出單分子層中。此與微脂粒DSC實驗中,無論是嵌入法或吸附法都不影響相轉移溫度,推測PF-127嵌入脂質雙層不深是相符的。zh_TW
dc.description.abstractThis study investigated the behavior of mixed DMPC/PF-127 Gibbs’ adsorption monolayers (the weight ratio are 34: 4 , 34:14 and 34:34)and the PF-127 absorbed on different monolayers(the composition are DMPC, DMPC/Vit-E and DMPC/cholesterol)at the air/liquid interface at 25 . For mixed DMPC/PF-127 adsorption monolayers system at the air/water interface, the measurements of equilibrium surface tensions and surface pressure-area per molecule(Π-A) isotherms were carried out. The results of the mixed monolayer, the equilibrium surface tensions increased with the PF-127 concentration. But the excess of surface concentration is non- linear. TheΠ-A isotherms of the behavior of mixed DMPC/PF-127 monolayers indicate that the addition of the PF-127increased the shift percentages and the transition phases were obviously. The behavior of the PF-127 adsorbed on different monolayers were investigated from the measurements of the change of surface pressure with time andΠ-A isotherms. In the PF-127 adsorption of monolayer systems, the equilibrium adsorption surface pressure increased with the PF-127 concentration and the initial surface pressure. The behavior of PF-127 adsorbed on DMPC/Vit-E and DMPC/cholesterol mixed monolayers, the ranges of equilibrium adsorption surface pressures are 15.8~28.3mN/m and 20.3~27.7mN/m, indicated that the addition of α-tocopherol and cholesterol change the distance of mixed monolayers. TheΠ-A isotherms of the PF-127 adsorbed to balance indicate that the transition phases were carried out and the PF-127 might be insert or absorb to monolayers. However, at higher surface pressure, the PF-127 molecules are squeezed into the subphase. From the DSC (differential Scanning Calorimetry ) experiments of liposome, the change of temperatures of phase transition regardless of the PF-127 incorporated or adsorbed to liposomes, which suggest the PF-127 does not insert or absorb deeply. Finally, the results obtained in this study support that the PF-127 can be readily absorbed or inserted onto liposome, providing steric barrier , preventing the fusion or aggregation of liposomes.en_US
DC.subject界面zh_TW
DC.subject磷脂質zh_TW
DC.subject單分子層zh_TW
DC.subject微脂粒zh_TW
DC.subjectinterfaceen_US
DC.subjectphospholipiden_US
DC.subjectmonolayeren_US
DC.subjectliposomeen_US
DC.title 三團聯聚合物(PF-127)和磷脂質間交互作用力量測和微脂粒穩定度之探討zh_TW
dc.language.isozh-TWzh-TW
DC.title The study of interaction of PEO-PPO-PEO copolymer (PF-127) with phospholipid and comparison of physical stability of liposomesen_US
DC.type博碩士論文zh_TW
DC.typethesisen_US
DC.publisherNational Central Universityen_US

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