中文
Earlier issues
Announcement
More
Progress in Chemistry 1998, Vol. 10 Issue (01): 63- Previous Articles   Next Articles

• Review •

The Application of Ultra sound in Organic Synthesis

Qin Zhaohai;Chen Fuheng;Xie Yuyuan   

  1. Department of Applied Chemistry , China Agricultural University , Beijing 100094 , China Shanghai Institute of Materia Medica, Chinese Academy of Sciences, Shanghai 200031, China"
  • Received: Revised: Online: Published:
  • Contact: Qin Zhaohai 
PDF ( 2588 ) Cited
Export

EndNote

Ris

BibTeX

Ultro sound is used more and more frequently in organic synthesis in recent three decades. Compared with traditional methods, this new method is more convenient and easily controlled. A great many of organic reactions can be carried out in higher yields,shorter time or milder conditions under low frequency unltrasonic irradiatioin. It can even set off some reactions which can not be carried out under traditional conditions. The representative references published in recent thirty years have been reviewed.

CLC Number: 

[1 ] Boudjouk P, Ultrasonics, 1986, 63 (5) , 427.
[2 ] Luche J L , Einhorn C, Einhorn J et al. , Tetrahedron Lett. , 1991, 31 (29) , 4125- 4128.
[3 ] Yamawaki J , Sumi S, Ando T et al. , Chem. Lett. , 1983, 379- 380.
[4 ] Einhorn C, Einhorn J , Dickens M J et al. , Tetrahedron Lett. , 1991, 31 (29) , 4129- 4130.
[5 ] Khurana J M , Sahoo P K, Synth. Commun. , 1990, 20 (9) , 1357- 1361.
[6 ] Yang D T C, Cao Y H, Kabalba G W ,ibid. , 1995, 25 (22) , 3695- 3699.
[7 ] Suzuki H, Ikegami T , Matano Y, Tetrahedron Lett. , 1994, 35 (44) , 8197- 8200.
[8 ] Fry A J , Herr D,ibid. , 1978, 20, 1721- 1724.
[9 ] Brown H C, Racherla U S, Tetrahedron Lett. , 1985, 26 (18) , 2187- 2190.
[10 ] Luzzio F A , O ’Hara L C, Synth. Commun. , 1990, 20 (20) , 3223- 3234.
[11 ] Petrier C, Luche J L , Tetrahedron Lett. , 1987, 28 (21) , 2347- 2350.
[12 ] Townsend C A , Nguyen L T , J. Am. Chem. Soc. , 1981, 103 (15) , 4582- 4583.
[13 ] Sadvador J A R, Melo M L S, Neves A S C, Tetrahedron Lett. , 1993, 34 (2) , 357- 360.
[14 ] Ando T , Bauchat P, Foucaud A et al. , Tetrahedron Lett. , 1991, 32 (44) , 6379- 6382.
[15 ] Tomoda S, U suki Y, Chem. Lett. , 1989, (7) , 1235- 1236.
[16 ] Repic O , Vogt S, Tetrahedron Lett. , 1982, 23, 2729.
[17 ] Etemad M G, Rifqui M , Layrolle P et al. , Tetrahedron Lett. , 1991, 32 (42) , 5965- 5968.
[18 ] Junning L , Snyder J K, J. Am. Chem. Soc. , 1989, 111, 1522.
[19 ] Thibaud P C, Jacques R, J. Org. Chem. , 1996, 61, 2547- 2548.
[20 ] Borthakur D R, Sandhu J S, J. Chem. Soc. , Chem. Commun. , 1988, 1444.
[21 ] Boudjouk P, Soorriyakumaran R, Han B H, J. Org. Chem. , 1986, 51, 2818- 2819.
[22 ] Sarandeses L A , Mourino A , Luche J L , J. Chem. Soc. , Chem. Commun. , 1992, 798- 799.
[23 ] Jacques B, Benammar Y, Lange C, Tetrahedron Lett. , 1991, 32 (33) , 4135- 4136.
[24 ] Nobuo I, Mitsuru T , E P 115 085, 1984.
[25 ] Ishikawa N , Koh M G, Kitazume T et al. , J. Fluorine Chem. , 1984, 24, 419- 430.
[26 ] 孙晓云, 彭贵存, 化学通报, 1990, (8) , 45- 47.
[27 ] Kawada S, J P 63 106 073, 1987.
[28 ] Ando T , Kawate T , Ichihara J et al. , Chem. Lett. , 1984, (5) , 725- 728.
[29 ] Ando T , Kawate T , Kamawaki J et al. , Synthesis, 1983, 637- 640.
[30 ] Reeves W P, McClusky J V , Tetrahedron Lett. , 1983, 24, 1585.
[31 ] Fujita T , Watanabe S, Sakamoto M et al. , Chem. Ind. (London) , 1986, (12) , 427.
[32 ] Hitomi S, Hajime A , Tetrahedron Lett. , 1996, 37 (21) , 3717- 3720.
[33 ] 吴立城, 谭平, 张秋萍, 化学世界, 1992, (4) , 157- 159.
[34 ] Jayasree J , Rao J M , Synth. Commun. 1996, 26 (6) , 1103- 1107.
[35 ] Singh A K, Synth. Commun. , 1990, 20 (22) , 3547- 3551.
[36 ] Ando T , Sumi S, Kawate T et al. , J. Chem. Soc. , Chem. Commun. , 1984, (7) , 439- 440.
[37 ] Kitazume T , Ishikawa N , J. Am. Chem. Soc. , 1985, 107 (18) , 5186- 5191.
[38 ] Didier V , A bdelkrim B A , Synth. Commun. , 1992, 22 (22) , 3169- 3179.
[39 ] Boudjouk P, Han B H, Anderson K R, J. Am. Chem. Soc. , 1982, 104 (18) , 4992- 4993.
[40 ] So J H, Park M K, Boudjouk P, J. Org. Chem. , 1988, 53, 5871- 5875.
[41 ] Tro st B M , Coppola B P, J. Am. Chem. Soc. , 1982, 104 (24) , 6879- 6881.
[42 ] Boualem O , Mohammed S, Bernald G, Synth. Commun. , 1995, 25 (6) , 871- 875.
[43 ] Silvia T R, Ana L V S, Eduardo A G S,ibid. , 1995, 25 (1) , 105- 110.
[44 ] Muzart J , Heterocycles, 1985, (15) , 285.
[45 ] Valitov R B, Zh. Fiz. Khim. , 1985, 59 (12) , 2973- 2977.
[46 ] Mason T J , Lorimer J P, Paniwnyk L , Synth. Commun. , 1990, 20 (22) , 3411- 3420.
[47 ] Einhorn C, Carbohy dr. Res. , 1986, 155, 258.
[48 ] 李记太, 王树, 李立军, 有机化学, 1995, (15) , 558- 560.
[49 ] Fuentes A , Sinisterra J V , Tetrahedron Lett. , 1986, 27 (26) , 2967- 2970.
[50 ] Moon S, Duchin L , Cooney J V ,ibid. , 1979, 41, 3917- 3920.
[51 ] Schmittling E A , Sawyer J S,ibid. , 1991, 32 (49) , 7207- 7210.
[52 ] Elguero J , C. R. Acad. Sci. Paris, 1984, 298, 877.
[53 ] Oppolzer W , Nakao A , Tetrahedron Lett. , 1986, 27 (45) , 5471- 5474.
[54 ] Adam S Y L , Dai W C,ibid. , 1996, 37 (4) , 495- 498.
[55 ] Yamashita J , Inoue Y, Kondo T et al. , Bull. Chem. Soc. Jpn. , 1984, 57, 2335- 2336.
[56 ] Fakih H E, Pautet F, Fillion H et al. , Tetrahedron Lett. , 1992, 33 (34) , 4909- 4910.
[57 ] Luche J L , Petrier C, Dupuy C,ibid. , 1984, 25 (7) , 753- 756.
[58 ] Caulier T P, Maeck M , Reisse J , J. Org. Chem. , 1995, 60, 272- 273.
[59 ] Pfeiffer W D, Z. Chem. , 1987, 27, 296.
[60 ] Winum J Y, KamalM , Leydet A et al. , Tetrahedron Lett. , 1996, 37 (11) , 1781- 1782.
[61 ] Bregaint P, Hamon J R, Lapinte C, J. Organomet. Chem. , 1990, 398 (3) , C25- C28.
[62 ] Ley S V , O ′Neil IA , Low CM R, Tetrahedron, 1986, 42 (19) , 5363- 5368.
[63 ] Chou T S, Yuan J J , T sao C H, J. Chem. Res. (S ) , 1985, 18- 19.
[1] Huang Baocheng, Wang Ruiping, Liang Wenping. Evaluation Results of National Science Fund for Distinguished young Scholars and joint Research Fund for young Scholars in Hong Kong and Abroad [J]. Progress in Chemistry, 2004, 16(01): 136-.
[2] Du Canping,Tang Jin,Zhang Lihe. Chemical Biology: A Cross-D iscipline in the 21st Century [J]. Progress in Chemistry, 2000, 12(03): 355-.
[3] Zhan Haoqiang. Research on Structure, Photostability and Photodegradation Mechanism of AzoDyes [J]. Progress in Chemistry, 1998, 10(04): 415-.
[4] Jiang Hualiang,Hu Zengjian,Chen Jianzhong,Gu Jiande,Zhu Weiliang,Chen Kaixian,Ji Ruyun. Computer Modeling for Interaction of Ligands and Receptors and Their Applications in Drug Design [J]. Progress in Chemistry, 1998, 10(04): 427-.
[5] Wang Ting,Zhou Jiaju. Three-Dimensional Structure Searching in Drug Design [J]. Progress in Chemistry, 1998, 10(04): 442-.
[6] Ci Yunxiang,Zhang Chunyang,Feng Jun. Progress in the Analytical Methods of Apoptosis [J]. Progress in Chemistry, 1998, 10(04): 451-.
[7] Shen Weiren,Zhao Wenkuan,He Fei,Fang Youling. TiO2-Based Photocatalysis and Its Applications for Waste Water Treatment [J]. Progress in Chemistry, 1998, 10(04): 349-.
[8] Peng Bixian,Cui Weidong,Zhao Xiang. Formation and Properties of Silver Clusters [J]. Progress in Chemistry, 1998, 10(04): 362-.
[9] Wang Jianwei,Zhong Shunhe. Research on CO2 Adsorption and Activation [J]. Progress in Chemistry, 1998, 10(04): 374-.
[10] Zhou Jicheng,Wang Xiangsheng. The Syntheses and Applications of Titanium Silicalite Molecular Sieves as a New Kind of Catalytic Materials [J]. Progress in Chemistry, 1998, 10(04): 381-.
[11] Zhu Bing,Zhao Daqing,Ni Jiazuan. Cleavage of Nucleic Acids by Lanthanides and Their Complexes [J]. Progress in Chemistry, 1998, 10(04): 395-.
[12] Wang Mei,He Ren. Inorganic and Organometallic Hyperbranched Polynuclear Complexes [J]. Progress in Chemistry, 1998, 10(04): 405-.
[13] Lin Mingzhang,Zhu Qingshi. Artificial Controlled Assembly of Metallic Nanoaggregates in Liquid Phase [J]. Progress in Chemistry, 1998, 10(03): 237-.
[14] Mao Chuanbin,Li Hengde,Cui Fuzhai,Feng Qingling,Wang Hao. Biomimetic Synthesis of Inorganic Materials [J]. Progress in Chemistry, 1998, 10(03): 246-.
[15] Qiu Minghua,Xing Qiyi. Natural Organic Compounds With Bioactivity [J]. Progress in Chemistry, 1998, 10(03): 255-.