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Progress in Chemistry 2007, Vol. 19 Issue (10): 1475-1481 Previous Articles   Next Articles

• Review •

The Photonic Crystal in Hydrogel

Wang Yulian1;Guo Ming2;Zheng Xuefang1**;Tang Qian1; Gao Dabin1   

  1. 1.Liao-ning Key Laboratory of Bioorganic Chemistry, Dalian University, Dalian 116622 China;
    2.College of Environmental and Chemical Engineering, Dalian University, Dalian 116622,China
  • Received: Revised: Online: Published:
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Photonic crystal is one type of materials in which the permittivity(or refractive index)changes periodically. The stimulated radiation inhibition and localization of this material make it confine, dominate and modulate the photos effectively. During the last decade, the photonic crystal in hydrogel(PCH), which holds both the virtues of self-assembly of the colloidal crystal and the environmental responsive property of the hydrogel, played a more and more important role in the new applications of drug delivery, optical switches, ion optrode, biosensor and so on. A summarization of the self-assembly of the colloidal crystalline and a classified introduction and developing trend of the photonic crystal in hydrogel were proposed in this paper.
Key words: colloidal crystals, photonic crystals, self-assembly, hydrogel, sensors

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[ 1 ] 丁敬(Ding J) , 高继宁(Gao J N) , 唐芳琼(Tang F Q) . 化学进展(Progress in Chemistry) , 2004 , 16(3) : 321 —326
[ 2 ] 黄忠兵(Huang Z B) , 高继宁( Gao J N) , 唐芳琼(Tang F Q)等. 物理化学学报(Acta Phys. Chim. Sin. ) , 2004 , 20 ( 6) :651 —655
[ 3 ] Maurer M K, Lednev I K, Asher S A. Adv. Funct . Mater. ,2005 , 15 : 1401 —1406
[ 4 ] Nolan M C , Serpe M J , Lyon A L. Biomacromolecules , 2004 , 5 :1940 —1946
[ 5 ] Burnham M R , Turner J N , Szarowski D , et al . Biomaterials ,2006 , 27 : 5883 —5891
[ 6 ] Benoit D S W, Nuttelman C R , Anseth K S , et al . Biomaterials ,2006 , 27 : 6102 —6110
[ 7 ] Piantino J , Burdick J A , Benowitz L I , et al . Exp. Neur. , 2006 ,201 : 359 —367
[ 8 ] 仲慧(Zhong H) , 稽鸣(Ji M) , 赵宜江(Zhao Y J ) 等. 精细化工(Fine Chemicals) , 2003 , 20(3) : 129 —131
[ 9 ] Du J , Dai J , Liu J L , et al . React . Funct . Polym. , 2006 , 66 :1055 —1061
[10] Missirlis D , Kawamura R , Hubbell J A , et al . Pharm. Sci . ,2006 , 29 : 120 —129
[11] Pike D B , Cai S S , Pomraning K R , et al . Biomaterials , 2006 ,27 : 5242 —5251
[12] Riley C M, Fuegy P W, Peattie R A , et al . Biomaterials , 2006 ,27 : 5935 —5943
[13] Taniguchi T , Mitsumata T , Sugimoto M, et al . Physica A , 2006 ,370 : 240 —244
[14] Zi J , Yu X D , Liu X H , et al . PANS , 2003 , 100(22) : 12576 —12578
[15] Parker A R , Welch V L , Driver D , et al . Nature , 2003 , 426 :786 —787
[16] Tsuji S , Kawaguchi H. Langmuir , 2005 , 21 : 8439 —8442
[17] Kimble K W, Walker J P , Finegold D N , et al . Langmuir , 2006 ,385 : 678 —685
[18] Texter J . Compt . Rend. Chim. , 2003 , 6 : 1425 —1433
[19] Liu L , Li P S , Asher S A. Nature , 1999 , 397 : 141 —144
[20] Li B , Avrutsky I , Mao G Z , et al . Colloid Interface Sci . , 2000 ,174 : 113 —119
[21] Reese C E , Asher S A. Anal . Chem. , 2003 , 75 (15) : 3915 —3918
[22] Pan G S , Tse A S , Asher S A , et al . J . Am. Chem. Soc. ,1998 , 120 : 6518 —6524
[23] Cho Y S , Yi G R , Yang S M, et al . Langmuir , 2005 , 21 :10770 —10775
[24] Liu L , Li P S , Asher S A. J . Am. Chem. Soc. , 1997 , 119 :2729 —2732
[25] Link J R , Sailor M J . PANS , 2003 , 100 (19) : 10607 —10610
[26] Velikov K P , Christova C G, Dullens R P A , et al . Science ,2002 , 296 : 106 —109
[27] Serpe M J , Yarmey K A , Nolan C M, et al . Biomacromolecules ,2005 , 6 : 408 —413
[28] Lyon A L , Debord D J , Debord B S , et al . J . Phys. Chem. B ,2004 , 108 : 19099 —19108
[29] Debord J D , Lyon L A. J . Phys. Chem. B , 2000 , 104 (27) :6327 —6331
[30] Jenekhe S A , Chen X L. Science , 1999 , 283 : 372 —375
[31] Asher S A , Alexeev V L , Goponenko A V , et al . J . Am. Chem.Soc. , 2003 , 125 : 3322 —3329
[32] Holtz J H , Asher S A. Nature , 1997 , 389 : 829 —832
[33] Pan G S , Kesavamoorthy R , Asher S A. J . Am. Chem. Soc. ,1998 , 120 : 6525 —6530
[34] Pan G S , Kesavamoorthy R , Asher S A. Phys. Rev. Lett . ,1997 , 78(20) : 3860 —3863
[35] Kamenjicki M, Kesavamoorthy R , Asher S A. Ionics , 2004 , 10 :233 —236
[36] Kamenjicki M, Lednew I K, Asher S A , et al . Adv. Funct .Mater. , 2003 , 13(10) : 774 —780
[37] Mikhonin A V , Maurer M K, Asher S A , et al . Appl . Spectr. ,2005 , 59(12) : 1534 —1540
[38] Alexeev V L , Sharma A C , Asher S A , et al . Anal . Chem. ,2003 , 75(10) : 2316 —2323
[39] Alexeev V L , Das S , Asher S A , et al . Clin. Chem. , 2004 , 50(12) : 2353 —2360
[40] Walker J P , Asher S A. Anal . Chem. , 2005 , 77 : 1576 —1600
[41] Sharma A C , Jana T , Asher S A , et al . J . Am. Chem. Soc. ,2004 , 126 : 2971 —2977
[42] Kamenjicki1 M, Asher S A. Sensor. Actuat . B , 2005 , 106 (1) :373 —377
[43] Iwayama Y, Yamanaka J , Takiguchi Y, et al . Langmuir , 2003 ,19(4) : 977 —980
[44] 董健(Dong J ) , 曹跃霞(Cao Y X) , 钱卫平(Qian W P) . 化学学报(Acta Chimica Sinica) , 2006 , 64 : 388 —392
[45] Lee K, Asher S A. J . Am. Chem. Soc. , 2000 , 122 : 9534 —9537
[46] Zeng F , Wu S Z , Sun Z W, et al . Sensor. Actuat . B , 2002 ,81 : 273 —276
[47] Wu J Z. Macromolecules , 2003 , 36 : 440 —448
[48] Toyotama A , Kanai T , Sawada T , et al . Langmuir , 2005 , 21 :10268 —10270
[49] Lawrence J R , Shim G H , Jiang P , et al . Adv. Mater. , 2005 ,17 : 2344 —2349
[50] Liu L , Li P S , Asher S A. J . Am. Chem. Soc. , 1999 , 121 :4040 —4046
[51] Lee Y J , Pruzinsky S A , Braun P V. Langmuir , 2004 , 20 :3096 —3106
[52] Lee Y J , Braun P V. Adv. Mater. , 2003 , 15(7P8) : 563 —566
[53] Gan D , Lyon L A. Anal . Chim. Acta , 2003 , 496 : 53 —63
[54] Yoshinaga K, Fujiwara K, Mouri E , et al . Langmuir , 2005 , 21 :4471 —4477
[55] Han M G, Foulger S H. Adv. Mater. , 2004 , 16(3) : 231 —234
[56] Xu X L , Friedman G, Asher S A , et al . Chem. Mater. , 2002 ,14 : 1249 —1256
[57] Xu X L , Asher S A. J . Am. Chem. Soc. , 2004 , 126 : 7940 —7945
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Abstract

The Photonic Crystal in Hydrogel