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化学进展 2007, Vol. 19 Issue (11): 1800-1805 前一篇   后一篇

• 综述与评论 •

碳薄膜电极材料在电分析化学中的应用*

郏建波**   

  1. (中国科学院长春应用化学研究所 电分析化学国家重点实验室 长春130022)
  • 收稿日期:2006-12-17 修回日期:2007-03-22 出版日期:2007-11-14 发布日期:2007-11-25
  • 通讯作者: 郏建波
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Application of Carbon-Based Thin-Film Electrode Materials in Electroanalytical Chemistry

Jia Jianbo**   

  1. (State Key Laboratory of Electroanalytical Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun 130022, China)
  • Received:2006-12-17 Revised:2007-03-22 Online:2007-11-14 Published:2007-11-25
  • Contact: Jia Jianbo
由于具有一系列的优点,碳材料被广泛地应用于电分析化学。新型碳电极材料的开发及其性质研究对电分析化学的发展起着重要的推动作用。最近文献报道了一些制备新型碳薄膜电极材料的方法,因为制备方法不同,这些碳薄膜材料的电化学性质如电位窗、稳定性、导电性也显著不同。人们对电位窗宽、背景电流低、稳定性高、表面不易被电极产物钝化的碳薄膜电极材料的研究非常活跃。本文综述了采用不同方法制备的一些碳薄膜电极材料如硼掺杂的金刚石薄膜、无定形碳和纳米晶体碳薄膜材料等在电分析化学中应用。
关键词: 碳薄膜, 硼掺杂的金刚石薄膜, 电子回旋加速共振碳薄膜, 电位窗, 稳定性
Carbon materials have been widely used in electroanalytical chemistry because they have a number of advantageous properties. The development of new carbon-based electrode materials with improved properties promotes the advance of electroanalytical chemistry significantly. Recently, several methods have been reported for the preparation of new carbon-based thin films. These films differ significantly as regards such electrochemical properties as potential window, stability, and conductivity as a result of the different deposition procedures. Great interesting was attracted by carbon-based thin-film electrode materials which have wide potential window, low background current, high stability, and less easily passivated by the products of redox reactions. We reviewed the application of several kinds of carbon-based thin-film electrode materials such as boron-doped diamond, amorphous carbon, and nanocrystalline carbon thin-film in electroanalytical chemistry.
Key words: Carbon-based thin-film, Boron-doped diamond (BDD), Electron Cyclotron Resonance (ECR)-sputtered carbon film, Potential window, Stability

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[ 1 ] He L , Toh C S. Anal . Chim. Acta , 2006 , 556 : 1 —15
[ 2 ] McCreery R L. In Interfacial Electrochemistry (Wieckowski A Ed. ) New York : Marcel Dekker , 1999. Chapter 35
[ 3 ] Hupert M, Muck A , Wang J , et al . Diamond Relat . Mater. ,2003 , 12 : 1940 —1949
[ 4 ] Compton R G, Foord J S , Marken F. Electroanal . , 2003 , 15 :1349 —1363
[ 5 ] Fujishima A , Einaga Y, Rao T N , et al . Diamond Electrochemistry. Amsterdam: Elsevier , 2005
[ 6 ] 只金芳( Zhi J F) , 田如海( Tian R H) . 化学进展( Prog.Chem. ) , 2005 , 17 : 55 —63
[ 7 ] Friedrich J M, Ponce-de-Leon C , Reade G W, Walsh F C. J .Electroanal . Chem. , 2004 , 561 : 203 —217
[ 8 ] Niwa O. Bull . Chem. Soc. Jpn. , 2005 , 78 : 555 —571
[ 9 ] Zeng A , Liu E , Tan S N , et al . Electroanal . , 2002 , 14 : 1110 —1115
[10] Hirono S , Umemura S , Kaneko R. Appl . Phys. Lett . , 2002 ,80 : 425 —427
[11] You T Y, Niwa O , Tomita M, et al . J . Electrochem. Soc. ,2002 , 149 : E479 —E484
[12] Niwa O , Jia J , Sato Y, et al . J . Am. Chem. Soc. , 2006 , 128 :7144 —7145
[13] Jia J , Kato D , Kurita R , et al . Anal . Chem. , 2007 , 79 : 98 —105
[14] Blackstock J J , Rostami A A , Nowak A M, et al . Anal . Chem. ,2004 , 76 : 2544 —2552
[15] Kiema G K, Brett M J . J . Electrochem. Soc. , 2004 , 151 :E194 —E198
[16] Ranganathan S , McCreery R L. Anal . Chem. , 2001 , 73 : 893 —900
[17] Yee N C , Shi Q F , Cai W B , et al . Electrochem. Solid State Lett . , 2001 , 4 : E42 —E44
[18] Pleskov Y V , Krotova M D , Polyakov V I , et al . J . Electroanal .Chem. , 2002 , 519 : 60 —64
[19] Chen Q Y, Gruen D M, Krauss A R , et al . J . Electrochem.Soc. , 2001 , 148 : E44 —E51
[20] Show Y, Witek M A , Sonthalia P , Swain GM. Chem. Mater. ,2003 , 15 : 879 —888
[21] Hian L C , Grehan KJ , Compton R G, et al . J . Electrochem.Soc. , 2003 , 150 : E59 —E65
[22] Xu J S , Swain G M. Anal . Chem. , 1998 , 70 : 1502 —1510
[23] Granger M C , Witek M, Xu J S , et al . Anal . Chem. , 2000 , 72 :3793 —3804
[24] Fischer A E , Show Y, Swain G M. Anal . Chem. , 2004 , 74 :2553 —2560
[25] Bennett J A , Wang J A , Show Y, Swain G M. J . Electrochem.Soc. , 2004 , 151 : E306 —E313
[26] Ivandini T A , Rao T N , Fujishima A , Einaga Y. Anal . Chem. ,2006 , 78 : 3467 —3471
[27] Spataru N , Spataru T, Fujishima A. Electroanal . , 2005 , 17 :800 —805
[28] Shin D C , Tryk D A , Fujishima A , et al . Electrophoresis , 2004 ,25 : 3017 —3023
[29] Ivandini T A , Sarada B V , Rao T N , et al . Analyst , 2003 , 128 :924 —929
[30] Terashima C , Rao TN , Sarada B V , et al . Anal . Chem. , 2002 ,74 : 895 —902
[31] Welch C M, Hyde M E , Banks C E , et al . Anal . Sci . , 2005 ,21 : 1421 —1430
[32] Batchelor-McAuley C , Banks C E , Simm A O , et al . Analyst ,2006 , 131 : 106 —110
[33] Duo I , Levy-Clement C , Fujishima A , Comninellis C. J . Appl .Electrochem. , 2004 , 34 : 935 —943
[34] Tian R H , Rao T N , Einaga Y, Zhi J F. Chem. Mater. , 2006 ,18 : 939 —945
[35] Zhou Y L , Zhi J F. Electrochem. Commun. , 2006 , 8 : 1811 —1816
[36] Zhou Y L , Tian R H , Zhi J F. Biosens. Bioelectron. , 2007 , 22 :822 —828
[37] Wu J , Wang H , Fu L , et al . Talanta , 2005 , 65 : 511 —517
[38] Wu J , Lei C X, Yang H F , et al . Sensor Actuat . B : Chem. ,2005 , 107 : 509 —515
[39] Wu J , Li X L , Wu X M, et al . Chem. Res. Chinese Univ. ,2005 , 21 (5) : 517 —521
[40] Weng J , Xue J M, Wang J , et al . Adv. Funct . Mater. , 2005 ,15 : 639 —647
[41] Zhao G H , Qi Y, Tian Y. Electroanal . , 2006 , 18 : 830 —834
[42] 刘峰斌(Liu F B) , 李学敏(Li X M) , 汪家道(Wang J D) 等.科学通报(Chinese Sci . Bull . ) , 2006 , 51 : 1344 —1348
[43] Tsunozaki K, Einaga Y, Rao T N , Fujishima A. Chem. Lett . ,2002 , 502 —503
[44] Provent C , Haenni W, Santoli E , Rychen P. Electrochim. Acta ,2004 , 49 : 3737 —3744
[45] Pagels M, Hall C E , Lawrence N S , et al . Anal . Chem. , 2005 ,77 : 3705 —3708
[46] Lawrence N S , Pagels M, Meredith A , et al . Talanta , 2006 , 69 :829 —834
[47] Cvacka J , Quaiserova V , Park J W, et al . Anal . Chem. , 2003 ,75 : 2678 —2687
[48] Muna G W, Quaiserova-Mocko V , Swain G M. Anal . Chem. ,2005 , 77 : 6542 —6548
[49] Park J , Show Y, Quaiserova V , et al . J . Electroanal . Chem. ,2005 , 583 : 56 —68
[50] Park J , Galligan J J , Fink G D , Swain G M. Anal . Chem. ,2006 , 78 : 6756 —6764
[51] Holt KB , Bard A J , Show Y, Swain GM. J . Phys. Chem. B ,2004 , 108 : 15117 —15127
[52] Szunerits S , Mermoux M, Crisci A , et al . J . Phys. Chem. B ,2006 , 47 , 23888 —23897
[53] Diaz J , Paolicelli G, Ferrer S , Comin F. Phys. Rev. B , 1996 ,54 : 8064 —8069.
[54] Chu P K, Li L. Mater. Chem. Phys. , 2006 , 96 : 253 —277
[55] Robertson J . Mater. Sci . Eng. R , 2002 , 37 : 129 —281
[56] Evstefeeva Y E , Pleskov Y V , Kutsay A M, et al . Russ. J .Electrochem. , 2005 , 41 : 772 —777
[57] You T Y, Niwa O , Tomita M, et al . Electrochem. Commun. ,2002 , 4 : 468 —471
[58] You T Y, Niwa O , Kurita R , et al . Electroanal . , 2004 , 16 :54 —59
[59] You T Y, Niwa O , Horiuchi T, et al . Chem. Mater. , 2002 , 14 :4796 —4799
[60] You T Y, Niwa O , Tomita M, Hirono S. Anal . Chem. , 2003 ,75 : 2080 —2085
[61] You T Y, Niwa O , Chen Z, et al . Anal . Chem. , 2003 , 75 :5191 —5196
[62] Fardel R , Griesbach U , Putter H , et al . J . Appl . Electrochem. ,2006 , 36 : 249 —253
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