设计合成了3种新型的钼、钨过氧配合物的双季铵盐PhCH2N(CH2)6NCH2Ph[W(O2)4]·2H2O、PhCH2N(CH2)6NCH2Ph[WO(O2)2(C2O4)]和PhCH2N(CH2)6NCH2Ph[MoO(O2)2(C2O4)]. 并利用元素分析、红外光谱、激光拉曼光谱测试技术对其进行了表征,研究了它们在无有机溶剂、无卤素、无相转移催化剂的清洁条件下催化30%稀H2O2氧化苯甲醇、环己醇分别生成苯甲醛(苯甲酸)和环己酮的反应. 实验结果表明,在温和条件下,钨过氧配合物的双季铵盐对上述反应有很好的催化作用. 而含钼过氧配合物的双季铵盐的催化活性相对较弱. 其中,苯甲酸、苯甲醛、环己酮的最高产率可分别达到93.0%、93.6%和91.7%.
参考文献
| [1] | Sato K,Aoki M,Hashimoto T,et al. J Org Chem[J],1996,61:8 310 |
| [2] | Sato K,Aoki M,Ogawa M,et al. Bull Chem Soc Jpn[J],1997,70:905 |
| [3] | Venturello C,D′Aloisio R,Banrt J,et al. J Mol Catal[J],1985,32:107 |
| [4] | Anelli P L,Banfi S,Montanari F,et al. J Chem Soc,Chem Commun[J],1989:779 |
| [5] | Aubry C,Chottard G,Platzer N,et al. Inorg Chem[J],1991,30:4 409 |
| [6] | Dengel A C,Griffith W P,Parkin B C.J Chem Soc,Dalton Trans[J],1993:2 683 |
| [7] | Neumann R,Gara M.J Am Chem Soc[J],1995,117:5 066 |
| [8] | Isbii Y,Yamawaki K,Ura T,et al. J Org Chem[J],1988,53:3 587 |
| [9] | Xi Z W,Zhou N,Sun Y,et al. Science[J],2001,292:1 139 |
| [10] | MA Zu-Fu(马祖福),DENG You-Quan(邓友全),WANG Kun(王坤),et al. Chemistry(化学通报)[J],2001,(2):116,108 |
| [11] | Oguch T,Ura T,Ishii Y,et al. Chem Lett[J],1989:857 |
| [12] | LI Hua-Ming(李华明),JI Ming-Hui(纪明慧),LIN Hai-Qiang(林海强),et al. Chin J Appl Chem(应用化学)[J],2003,20(6):570 |
| [13] | Antonelli E,Rino D′Aloisio R,Gambaro M,et al. J Org Chem[J],1998,63:7 190 |
| [14] | Jacobson S E,Muccigrosso D A,Mares F.J Org Chem[J],1979,44:921 |
| [15] | Trost M B,Masuyama Y.Tetrahedron Lett[J],1984,25:173 |
| [16] | Iwao T,Yoshiaki K,Jun-ichi I.J Am Chem Soc[J],1981,103:6 152 |
| [17] | Dengel A C,Griffith W P,Powell R D.J Chem Soc,Dalton Trans[J],1987:991 |
| [18] | Geary J.Coord Chem Rev[J],1971,7:81 |
| [19] | Campbell A C,Edwards C D,Griffith P W.J Chem Soc Dalton Trans[J],1989:1 203 |
| [20] | Griffith W P,Wickins T D.J Chem Soc(A)[J],1967:590 |
| [21] | Sato K,Aoki M,Takagi J,et al. Bull Chem Soc Jpn[J],1999,72:2 287 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%