A novel hydrogen peroxide biosensor based on the BPT/AuNPs/graphene/HRP composite

Science China Chemistry

Volumn 54, Issue 10, 2011, Pages 1645-1650

  Wang, Teng ^a,b   Zhu, Yi ^a,b   Li, Gai ^a,b   Zhang, ShengYi ^a,b   Song, JiMing ^a,b   Mao, ChangJie ^a,b   Wu, JieYing ^a,b   Jin, BaoKang ^a,b   Tian, YuPeng ^a,b  

^a ANHUI UNIVERSITY   (China)

^b SHANDONG UNIVERSITY   (China)

Author keywords

AuNPs grapheme; biosensor; horseradish peroxidase; hydrogen peroxide

Indexed keywords

AU ELECTRODES; AUNPS/GRAPHEME; DETECTION LIMITS; ELECTROCATALYTIC PERFORMANCE; FAST RESPONSE; HIGH SENSITIVITY; HORSE-RADISH PEROXIDASE; IN-SITU; LINEAR RESPONSE; POLYVINYL PYRROLIDONE; UV VISIBLE SPECTROSCOPY; XRD;

ADSORPTION; GRAPHENE; HYDROGEN; HYDROGEN PEROXIDE; OXIDATION; ULTRAVIOLET SPECTROSCOPY;

BIOSENSORS;

EID: 80755136635     PISSN: 16747291     EISSN: None     Source Type: Journal    
DOI: 10.1007/s11426-011-4360-5     Document Type: Article

References (40)

1. C. Léger P. Bertrand 2008 Direct electrochemistry of redox enzymes as a tool for mechanistic studies Chem Rev 108 2379 2438 10.1021/cr0680742
2. Y.L. Yao K.K. Shiu 2008 Direct electrochemistry of glucose oxidase at carbon nanotube-gold colloid modified electrode with poly(diallyldi- methylammonium chloride) coating Electroanalysis 20 1542 1548 10.1002/elan.200804209 1:CAS:528:DC%2BD1cXpsVOqs7c%3D
3. J.J. Gooding 2005 Nanostructuring electrodes with carbon nanotubes: A review on electrochemistry and applications for sensing Electrochim Acta 50 3049 3060 10.1016/j.electacta.2004.08.052 1:CAS:528:DC%2BD2MXjvVCrs7w%3D (Pubitemid 40574563)
4. A. Guiseppi-Elie C. Lei R.H. Baughman 2002 Direct electron transfer of glucose oxidase on carbon nanotubes Nanotechnology 13 559 10.1088/0957-4484/13/ 5/303 1:CAS:528:DC%2BD38XpsVCgs7k%3D (Pubitemid 35263779)
5. K. Maehashi K. Matsumoto 2009 Label-free electrical detection using carbon nanotube-based biosensors Sensors-Basel 9 5368 5378 1:CAS:528: DC%2BD1MXoslSlsL4%3D
6. R.A. Villamizar A. Maroto F.X. Rius I. Inza M.J. Figueras 2008 Fast detection of salmonella infantis with carbon nanotube field effect transistors Biosens Bioelectron 24 279 283 10.1016/j.bios.2008.03.046 1:CAS:528: DC%2BD1cXpt1Kjtb8%3D
7. W.R. Yang K.R. Ratinac S.P. Ringer P. Thordarson J.J. Gooding F. Braet 2010 Carbon nanomaterials in biosensors: Should you use nanotubes or graphene? Angew Chem Int Ed 49 2114 2138 10.1002/anie.200903463 1:CAS:528: DC%2BC3cXktVWrsL4%3D
8. D. Chen L. Tang J. Li 2010 Graphene-based materials in electrochemistry Chem Soc Rev 39 3157 3180 10.1039/b923596e 1:CAS:528:DC%2BC3cXptFygs70%3D
9. K.S. Novoselov A.K. Geim S.V. Morozov D. Jiang Y. Zhang S.V. Dubonos I.V. Grigorieva A.A. Firsov 2004 Electric field effect in atomically thin carbon films Science 306 666 669 10.1126/science.1102896 1:CAS:528:DC%2BD2cXos1Kqt70%3D (Pubitemid 39440910)
10. A. Reina X.T. Jia J. Ho D. Nezich H.B. Son V. Bulovic M.S. Dresselhaus J. Kong 2009 Large area few-layer graphene films on arbitrary substrates by chemical vapor deposition Nano Lett 9 30 35 10.1021/nl801827v 1:CAS:528:DC%2BD1cXhsVCmurbM
11. X. Yang X. Dou A. Rouhanipour L. Zhi H.J. Rader K. Müllen 2008 Two-dimensional graphene nanoribbons J Am Chem Soc 130 4216 4217 10.1021/ja710234t 1:CAS:528:DC%2BD1cXivV2hurs%3D (Pubitemid 351466401)
12. P. Avouris Z.H. Chen V. Perebeinos 2007 Carbon-based electronics Nat Nanotech 2 605 615 10.1038/nnano.2007.300 1:CAS:528:DC%2BD2sXhtFWhtr7M (Pubitemid 47525190)
13. S. Gilje S. Han M. Wang K.L. Wang R.B. Kaner 2007 A chemical route to graphene for device applications Nano Lett 7 3394 3398 10.1021/nl0717715 1:CAS:528:DC%2BD2sXhtFOitLnP (Pubitemid 350216034)
14. M.D. Stoller S.J. Park Y.W. Zhu J.H. An R.S. Ruoff 2008 Graphene-based ultracapacitors Nano Lett 8 3498 3502 10.1021/nl802558y 1:CAS:528: DC%2BD1cXhtFaitLjE
15. T. Takamura K. Endo L. Fu Y. Wu K.J. Lee T. Matsumoto 2007 Identification of nano-sized holes by TEM in the graphene layer of graphite and the high rate discharge capability of Li-ion battery anodes Electrochim Acta 53 1055 1061 10.1016/j.electacta.2007.03.052 1:CAS:528:DC%2BD2sXht1WqurzF (Pubitemid 47614997)
16. Y. Li L. Tang J. Li 2009 Preparation and electrochemical performance for methanol oxidation of Pt/graphene nanocomposites Electrochem Commun 11 846 849 10.1016/j.elecom.2009.02.009
17. X. Wang L. Zhi N. Tsao Tomović J. Li K. Müllen 2008 Transparent carbon films as electrodes in organic solar cells Angew Chem Int Ed 47 2990 2992 10.1002/anie.200704909 1:CAS:528:DC%2BD1cXltFChsbw%3D
18. H. Chen M.B. Müller K.J. Gilmore G.G. Wallace D. Li 2008 Mechanically strong electrically conductive and biocompatible graphene paper Adv Mater 20 3557 3561 10.1002/adma.200800757 1:CAS:528:DC%2BD1cXht1SgtbjF
19. S. Stankovich D.A. Dikin G.H.B. Dommett K.M. Kohlhaas E.J. Zimney E.A. Stach R.D. Piner S.T. Nguyen R.S. Ruoff 2006 Graphene-based composite materials Nature 442 282 286 10.1038/nature04969 1:CAS:528:DC%2BD28XmvF2js7g%3D (Pubitemid 44114900)
20. Y.B. Zhang Y.W. Tan H.L. Stormer P. Kim 2005 Experimental observation of the quantum hall effect and Berry's phase in graphene Nature 438 201 204 10.1038/nature04235 1:CAS:528:DC%2BD2MXhtF2nsrnJ (Pubitemid 41599868)
21. X.H. Kang J. Wang H. Wu I.A. Aksay J. Liu Y.H. Lin 2009 Glucose oxidase-graphene-chitosan modified electrode for direct electrochemistry and glucose sensing Biosens Bioelectron 25 901 905 10.1016/j.bios.2009.09.004 1:CAS:528:DC%2BD1MXhtlCrs7fJ
22. J. Lu L.T. Drzal R.M. Worden I. Lee 2007 Simple fabrication of a highly sensitive glucose biosensor using enzymes immobilized in exfoliated graphite nanoplatelets nafion membrane Chem Mater 19 6240 6246 10.1021/cm702133u 1:CAS:528:DC%2BD2sXhtlSkurjJ
23. M. Segal 2009 Selling graphene by the ton Nat Nanotech 4 611 613
24. S. Alwarappan A. Erdem C. Liu C.Z. Li 2009 Probing the electrochemical properties of graphene nanosheets for biosensing applications J Phys Chem C 113 8853 8857 10.1021/jp9010313 1:CAS:528:DC%2BD1MXkvFersr0%3D
25. Y. Wang Y. Li L. Tang J. Lu J. Li 2009 Application of graphene-modified electrode for selective detection of dopamine Electrochem Commun 11 889 892 10.1016/j.elecom.2009.02.013 1:CAS:528:DC%2BD1MXjslOjt7w%3D
26. H. Jang Y.K. Kim H.M. Kwon W.S. Yeo D.E. Kim D.H. Min 2010 A graphene-based platform for the assay of duplex-DNA unwinding by helicase Angew Chem Int Ed 49 5703 5707 10.1002/anie.201001332 1:CAS:528:DC%2BC3cXps1Cqsbk%3D
27. N. Mohanty V. Berry 2008 Graphene-based single-bacterium resolution biodevice and DNA transistor: Interfacing graphene derivatives with nanoscale and microscale biocomponents Nano Lett 8 4469 4476 10.1021/nl802412n 1:CAS:528:DC%2BD1cXhtlemt7jF
28. C.S. Shan H.F. Yang J.F. Song D.X. Han A. Ivaska L. Niu 2009 Direct electrochemistry of glucose oxidase and biosensing for glucose based on graphene Anal Chem 81 2378 2382 10.1021/ac802193c 1:CAS:528:DC%2BD1MXitVOnurc%3D
29. Z.J. Wang X.Z. Zhou J. Zhang F. Boey H. Zhang 2009 Direct Electrochemical reduction of single-layer graphene oxide and subsequent functionalization with glucose oxidase J Phys Chem C 113 14071 14075 10.1021/jp906348x 1:CAS:528:DC%2BD1MXoslWmurw%3D
30. J.C. Claussen A.D. Franklin H.A. Aerajul D.M. Porterfield T.S. Fisher 2009 Electrochemical biosensor of nanocube-augmented carbon nanotube networks Acs Nano 3 37 44 10.1021/nn800682m 1:CAS:528:DC%2BD1MXhsFCitA%3D%3D
31. A. Kongkanand S. Kuwabata G. Girishkumar P. Kamat 2006 Single-wall carbon nanotubes supported platinum nanoparticles with improved electrocatalytic activity for oxygen reduction reaction Langmuir 22 2392 2396 10.1021/la052753a 1:CAS:528:DC%2BD28Xoslartw%3D%3D
32. J. Li C. Fan F. Xiao R. Yan S. Fan F. Zhao B. Zeng 2007 Influence of ionic liquids on the direct electrochemistry of glucose oxidase entrapped in nanogold-N,N-dimethylformamide-ionic liquid composite film Electrochim Acta 52 6178 6185 10.1016/j.electacta.2007.04.014 1:CAS:528:DC%2BD2sXlsFalsb4%3D (Pubitemid 46738560)
33. H. Wu J. Wang X.H. Kang C.M. Wang D.H. Wang J. Liu I.A. Aksay Y.H. Lin 2009 Glucose biosensor based on immobilization of glucose oxidase in platinum nanoparticles/graphene/chitosan nanocomposite film Talanta 80 403 406 10.1016/j.talanta.2009.06.054 1:CAS:528:DC%2BD1MXhtF2hsbjI
34. K. Zhou Y. Zhu X. Yang C. Li 2010 Electrocatalytic oxidation of glucose by the glucose oxidase immobilized in graphene-Au-nafion biocomposite Electroanalysis 22 259 264 10.1002/elan.200900321
35. K. Zhou Y. Zhu X. Yang J. Luo C. Li S. Luan 2010 A novel hydrogen peroxide biosensor based on Au-graphene-HRP-chitosan biocomposites Electrochimica Acta 55 3055 3060 10.1016/j.electacta.2010.01.035 1:CAS:528:DC%2BC3cXisFSnsLs%3D
36. Y.G. Zhou J.J. Chen F.B. Wang Z.H. Sheng X.H. Xia 2010 A facile approach to the synthesis of highly electroactive Pt nanoparticles on graphene as an anode catalyst for direct methanol fuel cells Chem Commun 46 5951 5953 10.1039/c0cc00394h 1:CAS:528:DC%2BC3cXpslWitr8%3D
37. D. Li M.B. Muller S. Gilje R.B. Kaner G.G. Wallace 2008 Processable aqueous dispersions of graphene nanosheets Nat Nanotech 3 101 105 10.1038/nnano.2007.451 1:CAS:528:DC%2BD1cXhs1ajtLs%3D (Pubitemid 351225404)
38. C.-X. Lei S.-Q. Hu G.-L. Shen R.-Q. Yu 2003 Immobilization of horseradish peroxidase to a nano-Au monolayer modified chitosan-entrapped carbon paste electrode for the detection of hydrogen peroxide Talanta 59 981 988 10.1016/S0039-9140(02)00641-0 1:CAS:528:DC%2BD3sXis1ejurw%3D
39. A.K.M. Kafi G. Wu A. Chen 2008 A novel hydrogen peroxide biosensor based on the immobilization of horseradish peroxidase onto Aumodified titanium dioxide nanotube arrays Biosen Bioelectron 24 566 571 10.1016/j.bios.2008.06.004 1:CAS:528:DC%2BD1cXht1ensbvP
40. Z.-M. Liu Y. Yang H. Wang Y.-L. Liu G.-L. Shen R.-Q. Yu 2005 A hydrogen peroxide biosensor based on nano-Au/PAMAM dendrimer/cystamine modified gold electrode Sen Actu B: Chem 106 394 400 10.1016/j.snb.2004.08.023 (Pubitemid 40480274)