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Progress in Chemistry 2008, Vol. 20 Issue (05): 720-728 Previous Articles   Next Articles

• Review •

Synthesis and Application of Calixarene Containing Polymers

Zhu Weipu; Gou Pengfei; Shen Zhiquan**   

  1. (Institute of Polymer Science, Key Laboratory of Macromolecule Synthesis and Functionalization of Ministry of Education, Zhejiang University, Hangzhou 310027, China)
  • Received: Revised: Online: Published:
  • Contact: Shen Zhiquan
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Calixarenes are highly versatile scaffolds for the design of 3-D cavities, and have been regarded as the third generation of host molecule after crown ethers and cyclodextrins in supermolecular chemistry, which can selectively form complexes with guest molecules or ions. Recently, calixarene containing polymers have attracted much attention. Due to the good stability and machinability of polymer materials, calixarene containing polymers are expected to be developed as novel functional materials, which have been widely studies in ion selective electrodes and membranes, chemical and biochemical sensors and selective extraction of ions and neutral molecules. Based on the chain structures, there are three kinds of calixarenes containing polymers: calixarene in polymer backbone, calixarene as polymer side group and star polymer with a calixarene core. In this paper, the recent progress on the synthesis and application of calixarene containing polymers is reviewed.
Key words: calixarene, polymer, backbone, side group, star

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[ 1 ] Dhawan B , Chen S I , Gutsche C D. Die Makromolekulare Chemie , 1987 , 188 : 921 —950
[ 2 ] 黄志镗( Huang Z T) , 杨联明( Yang L M) . 化学进展(Progress in Chemistry) , 1994 , 6 : 173 —177
[ 3 ] Kumagai H , Hasegawa M, Miyanari S , et al . Tetrahedron Lett . ,1997 , 38 : 3971 —3972
[ 4 ] Timmerman P , Verboom W, Reinhoudt D N. Tetrahedron , 1996 ,52 : 2663 —2704
[ 5 ] Darbost U , Rager M, Petit S , et al . J . Am. Chem. Soc. , 2005 ,127 : 8517 —8525
[ 6 ] Arena G, Contino A , Gulino F G, et al . Tetrahedron Lett . ,2000 , 41 : 9327 —9330
[ 7 ] Kon N , Iki N , Miyano S. Org. Biomol . Chem. , 2003 , 1 : 751 —755
[ 8 ] Blanda M T , Farmer D B , Brodbelt J S , et al . J . Am. Chem.Soc. , 2000 , 122 : 1486 —1492
[ 9 ] Redshaw C. Coord. Chem. Rev. , 2003 , 244 : 45 —70
[10] Molenveld P , Engbersen J F J , Reinhoudt D N. Chem. Soc.Rev. , 2000 , 29 : 75 —86
[11] Diamond D , McKerveyMA. Chem. Soc. Rev. , 1996 , 25 : 15 —24
[12] De Namor A F D , Cleverley R M, Zapata2Ormachea ML. Chem.Rev. , 1998 , 98 : 2495 —2525
[13] 王丽(Wang L) , 施宪法(Shi X F) , 胡晓均(Hu X J) , 刘宇(Liu Y) . 化学进展( Progress in Chemistry) , 2002 , 14 (3) :217 —234
[14] 张晓梅(Zhang X M) , 潘现军(Pan X J ) . 现代化工(Modern Chemical Industry) , 2005 , 25(Z1) : 35 —39
[15] Shinkai S , Kawaguchi H , Manabe O. J . Polym. Sci . Pol . Lett . ,1988 , 26 : 391 —396
[16] Deligoz H , Tavasli M, Yilmaz M. J . Polym. Sci . Pol . Chem. ,1994 , 32 : 2961 —2964
[17] Deligoz H , Yilmaz M. J . Polym. Sci . Pol . Chem. , 1995 , 33 :2851 —2853
[18] Deligoz H , Yilmaz M. React . Funct . Polym. , 1996 , 31 : 81 —88
[19] Yilmaz M. React . Funct . Polym. , 1999 , 40 : 129 —133
[20] Gungor O , Memon S , Yilmaz M, et al . React . Funct . Polym. ,2005 , 63 : 1 —9
[21] Memon S , Tabakci M, Roundhill D X, et al . Polymer , 2005 ,46 : 1553 —1560
[22] Alexandratos S D , Natesan S. Macromolecules , 2001 , 34 : 206 —210
[23] Jain V K, Handa A , Pandya R , et al . React . Funct . Polym. ,2002 , 51 : 101 —110
[24] Trivedi U V , Menon S K, Agrawal Y K. React . Funct . Polym. ,2002 , 50 : 205 —216
[25] Klok H A , Eibeck P , Moller M. Macromolecules , 1997 , 30 :795 —802
[26] Kang Y L , Rudkevich D M. Tetrahedron , 2004 , 60 : 11219 —11225
[27] Harris S J , Barrett G, McKervey M A. J . Chem. Soc. Chem.Commun. , 1991 , 1224 —1225
[28] Gravett D M, Guillet J E. Macromolecules , 1996 , 29 : 617 —624
[29] Blanda M T , Adou E. Polymer , 1998 , 39 : 3821 —3826
[30] Parzuchowski P , Malinowska E , Rokicki G, et al . New J .Chem. , 1999 , 23 : 757 —763
[31] Malinowska E , Gawart L , Parzuchowski P , et al . Anal . Chim.Acta , 2000 , 421 : 93 —101
[32] Wang L , Shi X F , Jia P J , et al . J . Polym. Sci . Pol . Chem. ,2004 , 42 : 5259 —6266
[33] Uysal G, Memon S , Yilmaz M. React . Funct . Polym. , 2001 ,50 : 77 —84
[34] Memon S , Uysal G, Yilmaz M. React . Funct . Polym. , 2001 ,47 : 165 —174
[35] Barata P D , Costa A I , Granja P , et al . React . Funct . Polym. ,2004 , 61 : 147 —151
[36] Li H B , Chen Y Y. React . Funct . Polym. , 2003 , 55 : 171 —178
[37] Marsella M J , Newland R J , Carroll P J , et al . J . Am. Chem.Soc. , 1995 , 117 : 9842 —9848
[38] Crawford K B , Goldfinger M B , Swager T M. J . Am. Chem.Soc. , 1998 , 120 : 5187 —5192
[39] Vigalok A , Zhu Z G, Swager T M. J . Am. Chem. Soc. , 2001 ,123 : 7917 —7918
[40] Dondoni A , Ghiglione C , Marra A , et al . Chem. Commun. ,1997 , 673 —674
[41] Dondoni A , Ghiglione C , Marra A , et al . Macromol . Chem.Phys. , 1999 , 200 : 77 —86
[42] Dondoni A , Marra A , Rossia M, et al . Polymer , 2004 , 45 :6195 —6206
[43] Blanda M T , Adou E. Chem. Commun. , 1998 , 139 —140
[44] Tabakci B , Beduk A D , Tabakci M, et al . React . Funct .Polym. , 2006 , 66 : 379 —386
[45] Kim S I , Shin TJ , Ree M, et al . J . Polym. Sci . Pol . Chem. ,1999 , 37 : 2013 —2026
[46] Yang F F , Guo H Y, Cai X Q , et al . React . Funct . Polym. ,2005 , 64 : 163 —168
[47] Yamagishi T , Moriyama E , Konishi G, et al . Macromolecules ,2005 , 38 : 6871 —6875
[48] Mendes A R , Grego rio C C , Barata P D , et al . React . Funct .Polym. , 2005 , 65 : 9 —21
[49] Costa A I , Barata P D , Prata J V. React . Funct . Polym. , 2006 ,66 : 465 —470
[50] Costa A I , Prata J V. J . Polym. Sci . Pol . Chem. , 2006 , 44 :7054 —7070
[51] Vigalok A , Swager TM. Adv. Mater. , 2002 , 14 : 368 —371
[52] Yu H , Xu B , Swager T M. J . Am. Chem. Soc. , 2003 , 125 :1142 —1143
[53] Yang Y, Swager TM. Macromolecules , 2006 , 39 : 2013 —2015
[54] Zhu W P , Ling J , Shen Z Q. Macromol . Chem. Phys. , 2006 ,207 : 844 —849
[55] Lou L P , Jiang L M, Liu J Z , et al . Polym. Int . , 2007 , 56 :796 —802
[56] Angot S , Murthy K S , Taton D , et al . Macromolecules , 1998 ,31 : 7218 —7225
[57] Angot S , Taton D , Hizal G, et al . Polym. Prepr. , 1999 , 40 :348 —349
[58] Angot S , Murthy K S , Taton D , et al . Macromolecules , 2000 ,33 : 7261 —7274.
[59] Gnanou Y, Taton D. Macromol . Symp. , 2001 , 174 : 333 —341
[60] Lepoittevin B , Matmour R , Francis R , et al . Macromolecules ,2005 , 38 : 3120 —3128.
[61] Ueda J , Kamigaito M, Sawamoto M. Macromolecules , 1998 , 31 :6762 —6768
[62] Strandman S , Pulkkinen P , Tenhu H. J . Polym. Sci . Pol .Chem. , 2005 , 43 : 3349 —3358
[63] Strandman S , Luostarinen M, Niemela K, et al . J . Polym. Sci .Pol . Chem. , 2004 , 42 : 4189 —4201
[64] Taton D , Saule M, Logan J , et al . J . Polym. Sci . Pol . Chem. ,2003 , 41 : 1669 —1676
[65] Gou P F , Zhu W P , Shen Z Q. J . Polym. Sci . Pol . Chem.(submitted)
[66] Hull D L , Kennedy J P. J . Polym. Sci . Pol . Chem. , 2001 , 39 :1525 —1532
[67] ShimJ S , Kennedy J P. Polym. Bull . , 2000 , 44 : 493 —499
[68] Jacob S , Majoros I , Kennedy J P. Rubber Chem. Technol . ,1998 , 71 : 708 —721
[69] Jacob S , Kennedy J P. Polym. Bull . , 1998 , 41 : 167 —174
[70] Jacob S , Majoros I , Kennedy J P. Polym. Mater. Sci . Eng. ,1997 , 77 : 185 —186
[71] Jacob S , Majoros I , Kennedy J P. Macromolecules , 1996 , 29 :8631 —8641
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