標題: | 含酯基、乙腈基團或四唑取代之偶氮芳杯化學感測器 Upper Rim Arylazo-Coupled Calix[4]arenes Modified with Oxyacetonitrile, Ester or Tetrazole Groups as Highly Sensitive Chromogenic Sensors for Metal Ions |
作者: | 彭筱華 Peng, Hsiao-Hua 鍾文聖 Chung, Wen-Sheng 應用化學系碩博士班 |
關鍵字: | 偶氮,芳杯;calixarene,azo |
公開日期: | 2009 |
摘要: | 第一部分,我們合成出上緣具有推電子甲氧基之偶氮芳杯34 及
36。由紫外-可見光吸收光譜初步篩選實驗可得知,下緣修飾有單一
氧乙腈基團之偶氮芳杯34 及 36 在乙腈中皆對於Cr3+ 有很好的選
擇性;而引入醚酯基之34 則顯著的提升了對Ca2+ 的辨識能力。由
NOE、Job Plot 及氫核磁共振光譜滴定等實驗,可推測34 主要藉由
下緣兩個偶氮酚上的羥基,與氧乙腈基團協助對Ca2+ 離子進行一比
一之錯合,而醚酯基也輔助了錯合。並且, 34 與 Ca2+ 離子錯合後
會導致構形產生變化,由原本flattened cone 趨向於cone 構形。由
Benesi-Hildebrand plots 可求得34□Ca2+、34□Cr3+ 和 36□Cr3+ 錯合常數分別為3.7 □ 104、2.1 □ 104 及 8.1 □ 104。
第二部分,我們合成出偶氮酚對位具有拉電子之硝基的偶氮芳杯
38 以及 41。金屬篩選實驗可得知38 在較高極性質子性溶劑系統,
例如CH3CN/CH3OH (v/v = 19:1) 的溶劑系統中,仍然有能力對金屬
進行錯合。而41 則沒有此能力。由氫核磁共振光譜滴定實驗可推
測,偶氮芳杯38 除了下緣兩個偶氮酚上的羥基幫助之外,主要由氧
乙腈基團對Ca2+ 進行錯合,並由醚酯基輔助;對於Ba2+ 則藉由醚
酯基進行錯合,而氧乙腈基團也有所輔助。38□Ca2+、38□Ba2+、41□Ca2+和 41□Ba2+ 之錯合常數分別為7.3 □ 104、2.9 □ 104、1.7 □ 105 及 3.9 □103。
第三部分研究,則藉由偶極環化加成反應於芳杯下緣引入C5-單
取代四唑,合成出44。我們有效的提升偶氮芳杯在較高極性質子性,
例如含有甲醇或是水之溶劑系統中,對金屬之篩選能力,並增加芳杯
應用於離子篩選或生化及藥物領域上的潛力。 First of all, 4-(4-methoxyphenyl)azo-coupled calix[4]arenes 34 and 36 were synthesized. UV-vis screening of calix[4]arenes 34 (with ester and oxyacetonitrile) and 36 (with oxypropyl and oxyacetonitrile) with 15 metal ions showed that both of them gave rise to color changes toward Cr3+ ion, and 34 exhibited good binding ability to Ca2+. According to NOE, Job plot and NMR titration experiments, we proposed that 34 chelated Ca2+ with the helps of both oxyacetonitrile and ester groups, and it moved form flattened cone toward cone conformation upon complexation with metal ion. The Ka of 34□Ca2+, 34□Cr3+ and 36□Cr3+ calculated by Benesi-Hildebrand plots were 3.7 □ 104, 2.1 □ 104 and 8.1 □104 , respectively. In the second part, the syntheses of calix[4]arenes with 4-(4-nitrophenyl)azo calix[4]arenes 38 and 41 were carried out. UV-vis screening showed that calix[4]arene 38 exhibited large bathochromic shifts toward Ca2+ and Ba2+ in more polar protic solvent systems, such as CH3CN/CH3OH (v/v = 19:1). Moreover, 41 was deficient in this ability.The 1H NMR titration results suggested that both azophenols and ester/or oxyacetonitrile groups are required in the chromogenic sensing with metal ions. The Ka of 38□Ca2+, 38□Ba2+ , 41□Ca2+ and 41□Ba2+ were 7.3 □104, 2.9 □ 104, 1.7 □ 105 and 3.9 □ 103 , respectively. In the final part, the tetrazole-modified azocalix[4]arenes 44 were synthesized using 1,3-dipolar cycloaddition. We evaluated the metal ion screening abilities of azocalix[4]arenes in more polar protic solvent systems, such as CH3OH or H2O contained solvent systems. The utilities of calix[4]arenes in biological systems or pharmaceutical studies were improved upon tetrazole substitution. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT079725522 http://hdl.handle.net/11536/45171 |
Appears in Collections: | Thesis |