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Progress in Chemistry 2009, Vol. 21 Issue (09): 1922-1929 Previous Articles   Next Articles

• Review •

Development of New Coatings for Solid Phase Microextraction

Chen Jinmei1|Zeng Jingbin1|Chen wenfeng1|Huang Xiaoli1|Chen Xi1,2**   

  1. (1. Key Laboratory of Analytical Sciences, Ministry of Education, Department of Chemistry, College of Chemistry and Chemical Engineering, Xiamen University, Xiamen 361005, China|2. State Key Laboratory of Marine Environmental Science, Xiamen University, Xiamen 361005, China)
  • Received: Revised: Online: Published:
  • Contact: Chen Xi E-mail:xichen@xmu.edu.cn
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As a kind of sampling preparation method, solid phase microextraction (SPME) has many advantages such as simplicity, versatility, sensitivity and solvent free. It has gained widespread acceptance in separation and analysis. As the key factor of the SPME technique, coatings on SPME fiber determine the performance and application of SPME technique. Consequently, developing new coatings is the most important work for SPME. With the development of preparation methods of SPME coatings, many new coatings have appeared in recent years,and these new coatings expand the application fields of SPME technique. This review summaries the development of new SPME coatings in the past three years,and mainly focuses on the preparation methods and properties of new SPME coatings.

Contents
1 Introduction
2 Development of New Coatings for Solid Phase Microextraction
2.1 Physical precipiation method
2.2 Electrodeposited method
2.3 Directly use
2.4 Adhesive method
2.5 Sol–gel method
2.6 Molecularly imprinted method
2.7 Other preparation methods of SPME coatings
3 Expectation

Key words: solid phase microextraction(SPME), coatings, preparation methods

CLC Number: 

[ 1 ]  Arthur C L , Pawliszyn J . Anal . Chem. , 1990 , 62 (19) : 2145 —2148
[ 2 ]  Zeng E Y, Tsukada D , Diehl D W. Environ. Sci . Technol . , 2004 ,38 (21) : 5737 —5743
[ 3 ]  Tripathi R M, Mahapatra S , Sadasivan S , et al . J . Phys. Ⅳ,2003 , 107 : 1313 —1316
[ 4 ]  Xue R Y, Dong L , Zhang S , et al . Rapid Commun. Mass Spectrom. , 2008 , 22 (8) : 1181 —1186
[ 5 ]  Augusto F , Valente AL P. Trends Anal . Chem. , 2002 , 21 : 428 —438
[ 6 ]  Ravelo P , Hernandez B , Borges M, et al . Food Chem. , 2008 , 111(3) : 764 —770
[ 7 ]  Bianchi F , Bisceglie F , Careri M, et al . J . Chromatogr. A , 2008 ,1196 : 15 —22
[ 8 ]  Risticevic S , Carasek E , Pawliszyn J . Anal . Chim. Acta , 2008 ,617 (1/2) : 72 —84
[ 9 ]  Frison G, Zancanaro F , Favretto D , et al . Rapid Commun. Mass Spectrom. , 2006 , 20 (19) : 2932 —2938
[10 ]  高会云(Gao H Y) , 何娟(He J ) , 刘德仓(Liu D C) 等. 分析仪器(Analytical Instrumentation) , 2007 , 2 : 1 —6
[11 ]  Wang J X, Jiang D Q , Yan X P , et al . J . Chromatogr. A , 2006 ,1137 : 8 —14
[12 ]  Panavaite D , Padarauskas A , Vickackaite V. Anal . Chim. Acta ,2006 , 571 : 45 —50
[13 ]  Guan W, Xu F , Guan Y F. J . Chromatogr. A , 2007 , 1147 : 59 —65
[14 ]  Zhitomirsky I , Petric A. Mater. Lett . , 2000 , 46 : 1 —6
[15 ]  Budziak D , Martendal E , Carasek E. Anal . Chim. Acta , 2007 ,598 : 254 —260
[16 ]  Budziak D , Martendal E , Carasek E. J . Chromatogr. A , 2007 ,1164 : 18 —24
[17 ]  Li X, Zhong M, Sun C , et al . J . Chromatogr. A , 2006 , 1135 :101 —108
[18 ]  Bagheri H , Babanezhad E , Es-Haghi A. J . Chromatogr. A , 2007 ,1152 : 168 —174
[19 ]  Li X, Li C , Sun C , et al . J . Chromatogr. A , 2008 , 1198P1199 :7 —13
[20 ]  Gierak A , Eredych M, Bartnicki A. Talanta , 2006 , 65 (5) : 1079 —1087
[21 ]  Chai XL , He Y, Jia J P. J . Chromatogr. A , 2007 , 1165 : 26 —31
[22 ]  Cao D D , Jiang GB , Liu J F. Anal . Chim. Acta , 2008 , 611 : 56 —61
[23 ]  Liu X Y, Ji Y S , Zhang H X, et al . J . Chromatogr. A , 2007 ,1165 : 10 —17
[24 ]  田锐(Tian R) , 侯经国(Hou J G) . 分析科学学报(Journal of Analytical Science) , 2008 , 24 (1) : 63 —66
[25 ]  Zeng J B , Yu B B , Chen X, et al . J . Chromatogr. A , 2008 , 1188 :26 —33
[26 ]  Musteata ML , Musteata FM, Pawliszyn J . Anal . Chem. , 2007 , 79(18) : 6903 —6911
[27 ]  Dietz C , Sanz J , Camara C. J . Chromatogr. A , 2006 , 1103 (2) :183 —192
[28 ]  Chong S L , Wang D X, Malik A , et al . Anal . Chem. , 1997 , 69 :3889 —3898
[29 ]  Kumar A , Gaurav , Malik A K, et al . Anal . Chim. Acta , 2008 ,610 : 1 —14
[30 ]  Cai L S , Gong S L , Chen M, et al . Anal . Chim. Acta , 2006 , 559 :89 —96
[31 ]  Zhou J J , Zeng Z R. Anal . Chim. Acta , 2006 , 556 : 400 —406
[32 ]  Zhou J J , Yang F X, Zeng Z R , et al . Talanta , 2007 , 73 : 870 —877
[33 ]  Hu YL , Fu YL , Li G K. Anal . Chim. Acta , 2006 , 567 : 211 —217
[34 ]  Bianchi F , Bisceglie F , Careri M, et al . J . Chromatogr. A , 2008 ,1196 : 15 —22
[35 ]  ZengJ B , Chen J M, Chen X, et al . Anal . Chim. Acta , 2008 ,619 : 59 —66
[36 ]  Bagheri H , Babanezhad E , Khalilian F. Anal . Chim. Acta , 2008 ,616 : 49 —55
[37 ]  Liu MM, Liu Y, Zeng Z R , et al . J . Chromatogr. A , 2006 , 1108 :149 —157
[38 ]  Azenha M A , Nogueira P J , Silva A F. Anal . Chem. , 2006 , 78 :2071 —2074
[39 ]  Azenha M, Nogueira P , Fernando-Silva A. Anal . Chim. Acta ,2008 , 610 : 205 —210
[40 ]  Budziak D , Martendal E , Carasek E. J . Chromatogr. A , 2008 ,1187 : 34 —39
[41 ]  Budziak D , Martendal E , Carasek E. J . Chromatogr. A , 2008 ,1198/1199 : 54 —58
[42 ]  Li XJ , Gong S L , Zeng Z R. Chromatographia , 2005 , 62 (9/10) :519 —525
[43 ]  王荣艳(Wang R Y) , 王静(Wang J ) , 王锡昌(Wang X C) 等.现代科学仪器(Modern Scientific Instruments) , 2008 , (1) : 11 —16
[44 ]  Tamayo F G, Tureil E , Martin-Esteban A. J . Chromatogr. A ,2007 , 1152 : 32 —40
[45 ]  Mullett W M, Martin P , Pawliszyn J . Anal . Chem. , 2001 , 73 :2383 —2389
[46 ]  Koster E H M, Crescenzi C , Den Hoedt W, et al . Anal . Chem. ,2001 , 73 : 3140 —3145
[47 ]  Hu X G, Hu YL , Li G K. J . Chromatogr. A , 2007 , 1147 : 1 —9
[48 ]  Hu X G, Hu YL , Li G K. Anal . Lett . , 2007 , 40 (4) : 645 —660
[49 ]  Hu X G, Pan J L , Hu YL. J . Chromatogr. A , 2008 , 1188 : 97 —107
[50 ]  Turiel E , Tadeo J L , Martin-Esteban A. Anal . Chem. , 2007 , 79 :3099 —3104
[51 ]  Djozan D , Tahmineh B. J . Chromatogr. A , 2007 , 1166 : 16 —23
[52 ]  Djozan D , Ebrahimi B. Anal . Chim. Acta , 2008 , 616 (2) : 152 —159
[53 ]  Prasad B B , Tiwari K, Singh M, et al . J . Chromatogr. A , 2008 ,1198/1199 : 59 —66
[54 ]  Feng YQ , Wen Y. J . Chromatogr. A , 2007 , 1160 : 90 —98
[55 ]  Zeng J B , Chen J M, Chen X. J . Chromatogr. A , 2008 , 1208 :34 —41
[56 ]  Hsieh Y N , Huang P C , Sun I W, et al . Anal . Chim. Acta , 2006 ,557 : 321 —328
[57 ]  Nagayama H , Honda H , Kamahara H. J . Electrochem. Soc. ,1988 , 135 (8) : 2013 —2016
[58 ]  Lin B , Li T, Feng Y Q , et al . J . Chromatogr. A , 2008 , 1192 :95 —102
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