研究生: |
李春興 Chun Hsin Li |
---|---|
論文名稱: |
N---亞柳胺基酸衍生之三牙配子氧釩錯合物在不對稱合成之研究 |
指導教授: |
陳建添
Chen, Chien-Tien |
學位類別: |
碩士 Master |
系所名稱: |
化學系 Department of Chemistry |
論文出版年: | 2001 |
畢業學年度: | 89 |
語文別: | 中文 |
論文頁數: | 145 |
中文關鍵詞: | 1,1'-雙-酚 、2-酚氧 、硫氧化 、醛醇加成 |
英文關鍵詞: | BINOL, 2-naphthol, sulfide oxidation, aldol addition |
論文種類: | 學術論文 |
相關次數: | 點閱:110 下載:0 |
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一連串由三牙配子N-3,5-取代基-,N-3,4-苯并-和N-5,6-苯并-亞柳-α-胺基酸所衍生之釩氧(IV)錯合物,可以有效分別扮演各式3-,6-,7-取代基-2-酚氧化偶合反應、硫氧化反應和Mukaiyama-type醛醇加成的催化角色。我們以2-羥基-1-苯并柳醛和2-胺基異戊酸(或苯丙胺酸)所衍生而成的氧釩(IV)錯合物為催化劑,可以得到1,1'-雙-酚,產率可達75~100%,和高達68%的鏡像選擇性。各類硫化物亦可經由本實驗室所開發之三牙配子氧釩錯合物來得到相對的硫氧化產物,初步以硫大茴香醚為起始物所做的研究顯示,5 mol%的催化量配合35%的H2O2水溶液在-20 oC下反應可得到62-97%的產率和最高65%的鏡像超越值。我們成功地減少硫化物的過氧化現象(<2%),同時也維持了催化劑的反應活性。另外,我們以苯甲醛與γ-丁酸內酯所衍生之矽烷基半縮醛進行醛醇加成,在10 mol%催化量於-78 oC下反應48小時可以得到45-90%的產率,非鏡像立體選擇性則可達5/95(syn/anti),值得注意的是,在文獻中尚未發表此例的鏡像選擇性,而我們得到高達50%的鏡像超越值(for anti),此外再進一步擴大對芳香族醛類的研究,其初步的研究結果在此發表。
A series of chiral oxovanadium(IV) complexes derived from tridentate N-3,5-substituted and N-3,4-benzo- and N-5,6-benzo-salicylidene-α-amino acids can serve as efficient catalysts for the enantioselective oxidative couplings of various 3-,6-,7-substituted- 2-naphthols under O2 and oxidation of sulfides with H2O2 and Mukaiyama-type aldol additions. The best scenario involves the use of a vanadyl complex arising from 2-hydroxy-1-naphtholaldehyde and valine (or phenylalanine) in CCl4, leading to BINOLs in good yields (75-100%) and with enantioselectivities of up to 68%. Various sulfides can give corresponding sulfoxides by this catalytic reagent also. In case of thioansole, it can be performed with H2O2 (35%), a cheap and safe oxidant, as well as with 5 mol% vanadium catalyst at -20 oC. We are not only reduce the generation of sulfinate, but retain the catalytic reactivity. In addition, these type of vanadium complexes are utilized for Mukayaima additions between benzaldehyde and silyl ketene aectal (SKA) derived from γ-butyrolactone by 10 mol% catalyst at -78 oC in CH2Cl2 to afford aldol products in 45-90% yield with diastereoselectivities of up to 5/95 (syn/anti) and 50%ee (for anti). Remarkably, there were no reported about enantiomeric excess in this case before. On the other hand, four different aromatic aldehydes were also examined. We herein describe our preliminary finding.
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