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Progress in Chemistry 2004, Vol. 16 Issue (03): 343- Previous Articles   Next Articles

• Review •

Development and Application of Gemini Surfactants

Zhang Qingshan*;Guo Bingnan;Zhang Huimiao   

  1. (School of Chemical Engineering and Environment, Beijing Institute of Technology, Beijing 100081, China)
  • Received: Revised: Online: Published:
  • Contact: Zhang Qingshan
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Gemini surfactants are reputed as a new generation of surfactants. Two or more surfactants monomer are connected by spacer group through covalent bond. They have been widely used in industry because of a series of better properties. Introduction of its synthesis and applications in biological technology, anti-HIV, environmental protection and new materials is given.
Key words: Gemini surfactants, synthesis, new materials, anti-HIV, water pollution, gene transfection

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[ 1 ] Fredric M M, Jason S K. Angew. Chem. Int , Ed. , 2000 ,39 :1906 —1920
[ 2 ] Zana R. J . Colloid and Interface Science , 2002 , 246 : 175 —181
[ 3 ] Zana R. J . Colloid and Interface Science , 2002 , 246 : 182 —190
[ 4 ] Zana R. J . Colloid and Interface Science , 2002 , 248 : 203 —220
[ 5 ] Menger F M, Keiper J S , Azv V. Langmuir , 2000 , 16 : 2062 —2068
[ 6 ] Rosen M, Li F. J . Colloid and Interface Science , 2001 , 234 (2) :418 —424
[ 7 ] Rosen M, Mathias J H , Davenport L. Langmuir , 1999 , 15 : 7340
[ 8 ] Jenkins K M, Wettig S D , Verrall R E. J . Colloid and Interface Science , 2002 , 247 : 456 —462
[ 9 ] Wettig S D , Verrall R E. J . Collid and Interface Science , 2001 ,244 : 377 —385
[10] Castro M J L , Kovensky J , Cirelli A F. Tetrahedron Lett . , 1997 ,38 : 3995
[11] Kim T S , Tatsumi T, et al . J . Jap. Oil Chem. Soc. , 1997 , 46 :747 —753
[12] Alami E , Holmberg K, Eastoe J . J . Colloid and Interface Science , 2002 , 247 : 447 —455
[13] Holmbery V S K. J . Colloid and Interface Science , 2001 , 241 :524 —526
[14] Alami E , Holmberg K. J . Colloid and Interface Science , 2001 ,239 : 230 —240
[15] Wathier M, Polidori A , Ruiz K, et al . New J . Chem. , 2001 ,25 : 1588 —1599
[16] Leslie R D. J . Colloid and Interface Science , 2001 , 238 : 447 —448
[17] Jouani M A E , Szonyi S , Dieng S Y, et al . New J . Chem. ,1999 , 23 : 557 —562
[18] Torres J L , Piera E , Infante M R , et al . Prep. Biochem. Biotechnol . , 2001 , 31 : 259 —274
[19] 陈功(Chen G) , 黄鹏程(Huang P C) , 马云容(Ma Y R) 等.精细化工(Fine Chemicals) , 2001 , 18 : 440 —442
[20] 游毅(You Y) , 郑欧(Zheng O) , 邱羽(Qiu Y) 等. 物理化学学报(Acta Physico-Chimica Sinica) , 2001 , 17 : 74 —77
[21] 郭祥峰(Guo X F) , 陈华群(Chen H Q) , 贾丽华(Jia L H) 等.精细化工(Fine Chemicals) , 2002 , 19 : 376 —377
[22] Wu Y T, Wang J B , Liu M H , et al . Chinese J . Chem. , 2002 ,20 : 550 —553
[23] 赵剑曦(Zhao J X) . 化学进展( Progress in Chemistry) , 1999 ,11 (4) : 348 —357
[24] 水玲玲(Shui L L) , 郑利强(Zheng L Q) , 刘少杰(Liu S J ) 等.日用化学工业(China Surfactant Detergent &Cosmetics) , 2001 ,4 (2) :28 —31
[25] 付冀峰(Fu J F) , 杨建新(Yang J X) , 徐宝财(Xu B C) . 精细化工(Fine Chemicals) , 2001 , 18 (1) :14 —17
[26] 唐世华(Tang S H) , 黄建滨(Huang J B) , 李子臣(Li Z C) 等.自然科学进展( Progress in Natural Sciences) , 2001 , 11 (12) :1240 —1250
[27] Voort P V D , Mathieu M, Mees F , Vansant E F. J . Phys. Chem.B , 1998 , 102 : 448847 —448851
[28] Collart O , Voort P V D , Vansant E F , et al . Journal of Physical Chemistry B , 2001 , 105 (51) : 12771 —12777
[29] Benjelloun M, van der Voort P , Cool P , et al . Phys. Chem.Chem. Phys. , 2001 , 3 : 127 —131
[30] Esumi K, Hara J , Aihara N , et al . J . Colloid and Interface Science , 1998 , 208 : 578 —581
[31] Muriel B , Emile P , Lattes R I. New Journal of Chemistry , 1999 ,23 (11) : 1063 —1066
[32] Camilleri P , Kremer A , Edwards A J , et al . Chem. Commun. ,2000 , (14) : 1253 —1254
[33] Ronsin G, Perrin C , Guedat P , et al . Chem. Commun. , 2001 ,(21) : 2234 —2235
[34] Chen K D. Journal of Chromatography A , 1998 , 822 : 281 —290
[35] El Achouri M, Kertit S , Gouttaya H M, et al . Progress in Organic Coatings , 2001 , (43) :267 —273
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