水+正辛烷+界面活性劑C4E1三成份系統之相行為研究與利用溶膠凝膠法製備隨時間演變之薄膜

Shin-Hong Chen; 陳信宏

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/57345

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳立仁(Li-Jen Chen)
dc.contributor.author	Shin-Hong Chen	en
dc.contributor.author	陳信宏	zh_TW
dc.date.accessioned	2021-06-16T06:42:28Z	-
dc.date.available	2019-08-13
dc.date.copyright	2014-08-13
dc.date.issued	2014
dc.date.submitted	2014-07-29
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'Group‐contribution estimation of activity coefficients in nonideal liquid mixtures.' AIChE Journal 21, 1086-1099, 1975. Guggenheim, E. 'Mixtures: The Theory of the Equilibrium Properties of Some Simple Classes of Mixtures.' Solutions and Alloys, 1952. Hansen, H., B. Coto and B. Kuhlmann. 'UNIFAC with linearly temperature-dependent group-interaction parameters.' IVC-SEP, Phase Equilibria and Separation Processes SEP 9212, 1992. Hashimoto, T., K. Sasaki and H. Kawai. 'Time-resolved light scattering studies on the kinetics of phase separation and phase dissolution of polymer blends. 2. Phase separation of ternary mixtures of polymer A, polymer B, and solvent.' Macromolecules 17, 2812-2818, 1984. Herrmann, C.-U., G. Klar and M. Kahlweit. 'On the phase inversion in H2O-oil-nonionic surfactant systems and related phenomena.' Journal of Colloid and Interface Science 82, 6-13, 1981. 129 Kahlweit, M. 'The phase behavior of systems of the type H2O-oil—nonionic surfactant—electrolyte.' Journal of Colloid and Interface Science 90, 197-202, 1982. Kahlweit, M., E. Lessner and R. Strey. 'Influence of the properties of the oil and the surfactant on the phase behavior of systems of the type water-oil-nonionic surfactant.' The Journal of Physical Chemistry 87, 5032-5040, 1983. Kahlweit, M. and R. Strey. 'Phase Behavior of Ternary Systems of the Type H2O-Oil-Nonionic Amphiphile (Microemulsions).' Angewandte Chemie International Edition in English 24, 654-668, 1985. Kilpatrick, P., C. Gorman, H. Davis, L. Scriven and W. Miller. 'Patterns of phase behavior in ternary ethoxylated alcohol-n-alkane-water mixtures.' The Journal of Physical Chemistry 90, 5292-5299, 1986. Knickerbocker, B., C. Pesheck, L. Scriven and H. Davis. 'Phase behavior of alcohol-hydrocarbon-brine mixtures.' Journal of Physical Chemistry 83, 1984-1990, 1979. Kunieda, H. and S. E. Friberg. 'Critical phenomena in a surfactant/water/oil system. Basic study on the correlation between solubilization, microemulsion, and ultralow interfacial tensions.' Bull. Chem. Soc. Jpn 54, 1010-1014, 1981. Lin, B.-J. and L.-J. Chen. 'Liquid-Liquid Equilibria for the Ternary System Water+ Dodecane+ 2-Butyloxyethanol in the Temperature Range from 25° C to 65° C.' Journal of Chemical & Engineering Data 47, 992-996, 2002. Lin, B.-J. and L.-J. Chen. 'Liquid–liquid equilibria for the ternary system water+ tetradecane+ 2-butyloxyethanol.' Fluid phase equilibria 216, 13-20, 2004. Matsuyama, H., S. Kudari, H. Kiyofuji and Y. Kitamura. 'Kinetic studies of thermally induced phase separation in polymer–diluent system.' Journal of applied polymer science 76, 1028-1036, 2000. Nakanishi, K., H. Komura, R. Takahashi and N. Soga. 'Phase Separation in Silica Sol-Gel System Containing Poly (ethylene oxide). I. Phase Relation and Gel Morphology.' Bulletin of the Chemical Society of Japan 67, 1327-1335, 1994. 130 Nakanishi, K. and N. Tanaka. 'Sol–gel with phase separation. Hierarchically porous materials optimized for high-performance liquid chromatography separations.' Accounts of chemical research 40, 863-873, 2007. Nunes, S. P. and T. Inoue. 'Evidence for spinodal decomposition and nucleation and growth mechanisms during membrane formation.' Journal of membrane science 111, 93-103, 1996. Postnova, I. V., L.-J. Chen and Y. A. Shchipunov. 'Synthesis of monolithic mesoporous silica with a regular structure (SBA-15) and macropores in neutral aqueous solution at room temperature.' Colloid J 75, 231-233, 2013. Renon, H. and J. M. Prausnitz. 'Local compositions in thermodynamic excess functions for liquid mixtures.' AIChE journal 14, 135-144, 1968. Schubert, K. V., G. Busse, R. Strey and M. Kahlweit. 'Microemulsions with formamide as polar solvent.' The Journal of Physical Chemistry 97, 248-254, 1993. Schubert, K. V., R. Strey and M. Kahlweit. 'A New Purification Technique for Alkyl Polyglycol-Ethers and Miscibility Gaps for Water-CiEj.' Journal of Colloid and Interface Science 141, 21-29, 1991. Shchipunov, Y. A. 'Sol–gel-derived biomaterials of silica and carrageenans.' Journal of colloid and interface science 268, 68-76, 2003. Shchipunov, Y. A., T. y. Y. Karpenko, I. Y. Bakunina, Y. V. Burtseva and T. y. N.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/57345	-
dc.description.abstract	本研究分為兩部份，第一部份針對水+正辛烷+非離子型界面活性劑C4E1之三成份系統探討其相行為，C4E1 為醇醚類化合物，為CH3(CH2)3(OCH2CH2)OH之縮寫。此系統具有三液相共存區的存在，利用水與正辛烷的重量比為1:1 並改變C4E1 的重量分率，觀察系統於不同溫度達平衡時的液相數目，將結果繪製成魚形相圖。接著利用氣相層析儀，對系統進行液-液相平衡量測，並將結果繪製成三角相圖，根據實驗結果，系統隨溫度上升，可觀察到從兩液相轉變為三液相再轉變成兩液相的相行為。此外，我們利用NRTL 及UNIQUAC 模型對實驗數據進行迴歸及理論計算，發現NRTL 模型可有效地描述水+正辛烷+C4E1 三成分系統的相行為。第二部分，利用溶膠凝膠法將methyl-tri(2-hydroxyethyl)orthosilicate 當作前驅物與pluronic 界面活性劑合成出中孔洞的二氧化矽材料，並利用旋轉塗佈法將溶膠鍍玻璃基材上，經過鍛燒程序後，利用觀察表面型態了解系統中形貌隨著時間的改變，再利用矽烷類自組裝單分子降低表面能之後，利用前進角及後退角的量測探討表面型態對表面親疏水性的影響，發現最高角度可達155°，為超疏水表面。	zh_TW
dc.description.abstract	The first part of this study, we investigate the phase behavior of the ternary water + n-octane + nonionic surfactant C4E1 system. C4E1 is the abbreviation of CH3(CH2)3(OCH2CH2)OH. There were three-liquid-phase-coexisting regions in the system. Experiments of fish-shaped phase diagrams for the system were performed at constant water/n-octane weight ratio (1/1) with varying weight fraction of surfactant,and the number of liquid phases was recorded at different temperature. There was a transition for the number of liquid phases from two to three, and then to two along with increasing temperature. Liquid–liquid equilibrium measurements were performed by gas chromatography. For the two-liquid-phase-coexisting regions, there was more C4E1 in the lower phase at the lower temperature; however, there was more C4E1 in the upper phase at the higher temperature. The experimental liquid-liquid equilibrium data were successfully correlated with the NRTL model. In the second part of this study, we use a novel precursor methyl-tri(2-hydroxyethyl)orthosilicate, incorporated with a pluronic surfactant, to synthesize mesoporous silica material via sol-gel process in aqueous solution.Evolution of the morphology of the sol-gel system has been monitored by spin-coating the sol-gel solution onto the glass substrate to “freeze” the morphology in the sol-gel process. The nano- and micro-domain formation and growth in the sol-gel process are discussed. These substrates were further calcinated and modified by silaned self-assembled monolayer to lower their surface energy. The effect of morphology on the surface hydrophobicity will be also discussed.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T06:42:28Z (GMT). No. of bitstreams: 1 ntu-103-R01524042-1.pdf: 16663027 bytes, checksum: f1a2942647f0ccf85fa1229d17bb0d63 (MD5) Previous issue date: 2014	en
dc.description.tableofcontents	摘要 I Abstract II 目錄 IV 表目錄 VI 圖目錄 VIII 第一章緒論 1 第二章文獻回顧 6 2-1 水+油+非離子型界面活性劑三成份系統之相行為 6 2-2 液-液相平衡之熱力學模型 11 2-3 溶膠-凝膠之相轉變理論與動力學相關文獻 16 第三章實驗藥品、設備與實驗方法 31 3-1 實驗藥品 31 3-1-1 實驗用藥品 31 3-1-2 清潔用藥品 31 3-2 實驗設備 32 3-2-1 控溫裝置 32 3-2-2 氣相層析儀 32 3-2-3 其他儀器 34 3-3 實驗方法 36 3-3-1 製作魚形相圖 36 3-3-2 製作三角相圖 37 3-3-2-1 氣相層析儀的校正及操作條件 37 3-3-2-2 液相成份的計算方式 38 3-3-2-3 相平衡的量測 39 3-3-2-4 迴歸分析 40 3-3-2-5 相平衡時成份的理論計算(flash calculation) 41 3-3-3 以溶膠-凝膠法製作薄膜表面 41 3-3-4 前進和後退接觸角之量測 42 3-3-5 清潔步驟 43 3-3-5-1 酸液配製 43 3-3-5-2 試管及20 ml樣品瓶之清洗 43 3-3-5-3 微量注射針之清洗 43 第四章水 + 正辛烷 + C4E1三成份系統的相行為 46 4-1 魚型相圖 46 4-2 氣相層析儀之校正 47 4-3 三角相圖 48 4-4 理論模型迴歸及理論計算 51 4-4-1 NRTL模型迴歸及理論計算 51 4-4-2 UNIQUAC模型迴歸及理論計算 52 第五章利用溶膠-凝膠法製備隨時間演變之薄膜表面型態並探討其親疏水性 85 5-1 凝膠化時間 85 5-2 薄膜之表面型態及疏水性 86 5-2-1 前驅物為100 % THEOMS的表面型態及疏水性(20140428) 86 5-2-1-1 20140428實驗後直接鍛燒 86 5-2-1-2 20140428實驗後60小時鍛燒 87 5-2-2 前驅物為100 % THEOMS的表面型態及疏水性(20140506) 87 5-2-2-1 20140506實驗後直接鍛燒 88 5-2-2-2 20140506實驗後60小時鍛燒 88 5-2-2 前驅物為60 % THEOMS與40 % THEOS的表面型態 90 5-2-3 前驅物為70 % THEOMS與30 % THEOS的表面型態 90 第六章結論 126 參考文獻 128 附錄 132
dc.language.iso	zh-TW
dc.subject	NRTL 模型	zh_TW
dc.subject	液-液相平衡相圖	zh_TW
dc.subject	超疏水	zh_TW
dc.subject	溶膠凝膠	zh_TW
dc.subject	旋轉塗佈法	zh_TW
dc.subject	spin-coating	en
dc.subject	phase diagram	en
dc.subject	NRTL model	en
dc.subject	Ternary system	en
dc.subject	sol-gel	en
dc.subject	liquid–liquid equilibrium	en
dc.subject	superhydrophobic	en
dc.title	水+正辛烷+界面活性劑C4E1三成份系統之相行為研究與利用溶膠凝膠法製備隨時間演變之薄膜	zh_TW
dc.title	A Study on Phase Behavior of the ternary system Water+ N-octane+ Surfactant C4E1 System and Evolution of Morphology in A Sol-gel Process	en
dc.type	Thesis
dc.date.schoolyear	102-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	萬本儒,林析右,蔡瑞瑩
dc.subject.keyword	液-液相平衡相圖,NRTL 模型,溶膠凝膠,旋轉塗佈法,超疏水,	zh_TW
dc.subject.keyword	liquid–liquid equilibrium,phase diagram,NRTL model,Ternary system,sol-gel,spin-coating,superhydrophobic,	en
dc.relation.page	133
dc.rights.note	有償授權
dc.date.accepted	2014-07-29
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	化學工程學研究所	zh_TW
顯示於系所單位：	化學工程學系

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