標題: (I)含三唑吡啶取代芳杯衍生物之氫鍵、鹵素鍵與金屬離子誘導形成雙組成凝膠 (II)含雙異咢唑芳香取代雙芳杯衍生物之合成
(I)Hydrogen, Halogen Bonding and Metal Ion-Induced Two Component Gel Formation of Triazolyl-pyridyl Substituted Calix[4]arene Derivatives (II)Syntheses of bis-Isoxazolyl-aryl Substituted Biscalix[4]arene Derivatives
作者: 陳庭蓉
Chen, Tyng-Rong
鍾文聖
Chung, Wen-Sheng
應用化學系碩博士班
關鍵字: 芳杯;雙組成凝膠;凝膠;Calixarene;two component gel;gel
公開日期: 2013
摘要: 近年來,將芳杯衍生物運用於形成超分子凝膠之研究備受重視,因為可進行離子辨識、漏油回收等工作,但其大多為單組成凝膠。直至2007年,才出現有關芳杯衍生物之雙組成凝膠,其中,以鹵素鍵作為分子間作用力的例子極少。本篇論文利用點擊化學反應,合成出含三唑吡啶單取代芳杯衍生物33,並發現此化合物可於乙醇中形成單組成凝膠,其最低凝膠濃度為30 mM。 我們將芳杯衍生物33作為主體分子,與雙、參羧酸基或雙、參碘基取代之芳香族衍生物G1~G5,於乙醇中進行混合,發現透過不同的分子間作用力,不但形成具有奈米級試管形貌之氫鍵雙組成凝膠,更能形成具有纖維狀、層狀之鹵素鍵雙組形凝膠。除了可與芳香族分子形成雙組成凝膠外,我們將芳杯衍生物33與16種過氯酸金屬混合,發現於乙醇中可與鈣、汞、鋰、鈉離子,分別形成不同形貌之金屬誘導雙組成凝膠,依序為柱狀、細長型纖維狀、頭尖尾粗型纖維狀與含有奈米試管之柱狀。其中,更以含重金屬33-Hg2+凝膠可達到大幅降低芳杯衍生物33之最低凝膠濃度,由濃度為30 mM降至6 mM,且此凝膠透過ICP-MS分析得知,可有效除去乙醇中高達99.6%之汞離子。 另外,針對本實驗室合成出的螢光膠體化合物27,我們計畫將此化合物之上緣修飾較長的碳鏈,透過碳鏈長短來控制其球體形貌之凝膠直徑大小。在合成過程中,發現化合物44之純化是有困難的,雖然可在混合物中,取得化合物44之單晶,但發現此單晶化合物的1H NMR光譜依然如反應之產物複雜。我們取此44進行後續下緣之丙炔醚化及雙1,3-偶極環化加成反應,在以薄膜色層分析追蹤時,發現其產物皆為混合物,因此,未來仍須找出純化之條件。
In recent years, calix[4]arene derivatives have been extensively studied in supramolecular gel formation. Although they can be used in ions recognition and oil spill recovery, they usually form one component gels. Two component gel formation of calix[4]arene was not known until Prof. Zheng’s work published in 2007. It worth noting that there have been few reports on using halogen bonding as intermolecular forces for gel formation. In this thesis, we used click chemistry reaction to synthesize triazolyl-pyridyl substituted calix[4]arene derivatives 33 , which was found to form a one component gel in ethanol and it minimum gelation concentration was determined to be 30 mM. Using calix[4]arene derivatives 33 as host and dicarboxyl, tricarboxyl, diiodo, or triiodo substituted aromatic derivatives in ethanol as bridge, we found that they formed two component gel through different intermolecular interactions. The morphology of hydrogen bonding-triggered two component gel can be nanotube, fiber or rod; whereas halogen bonding-triggered two component gel can be fiber or sheet. In addition to the two component gel with aromatic derivatives, they could also form metallogels when compound 33 mixed with calcium, mercury, lithium and sodium ions in ethanol. The morphology of these metallogels were found to be rod, slender fibrous, stubby-type fibrous and nanotubes. Substantially lower the minimum gelation concentration of compound 33 can be achieved which decreased from 30 mM to 6 mM. As analyzed by ICP-MS, the two component gelation of 33 with Hg2+ can effectively remove the mercury content in ethanol by 99.6%. In addition, we wish to modify the upper rim of 27 by substituting the t-butyl by isoaryl group so that it can control the diameter of the micro spherical gels. During the synthesis, we found that compound 44 was difficult to be purified. Although we could obtain a single crystal from the reaction, we could not understand why its 1H NMR spectrum was still complicated. We used the mixture 44 to further functionalize it to propargloxy calix[4]arene 45 and subsequent bis-1,3-dipolar cycloaddition reaction to get 49; however, we found that they are still mixtures of compounds based on TLC analysis. We need to work on the purification procedures of compound 44 in the future.
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT070152509
http://hdl.handle.net/11536/74775
Appears in Collections:Thesis