An ECL sensor for dopamine using reduced graphene oxide/multiwall carbon nanotubes/gold nanoparticles

Sensors and Actuators, B: Chemical

Volumn 191, Issue , 2014, Pages 415-420

  Yuan, Dehua ^a   Chen, Shihong ^a   Yuan, Ruo ^a   Zhang, Juanjuan ^a   Liu, Xiaofang ^a  

^a SOUTHWEST UNIVERSITY   (China)

Author keywords

Dopamine; Electrochemiluminescence; Gold nanoparticles; Graphene; Multiwall carbon nanotubes; Sensor

Indexed keywords

DOPAMINE; ELECTROCHEMILUMINESCENCE; GOLD NANOPARTICLES; IN-SITU CHEMICAL REACTIONS; MODIFIED GLASSY CARBON ELECTRODE; OPTIMIZED CONDITIONS; REDUCED GRAPHENE OXIDES; SIGNAL INTENSITIES;

AMINES; BODY FLUIDS; GLASS MEMBRANE ELECTRODES; GRAPHENE; MULTIWALLED CARBON NANOTUBES (MWCN); NANOPARTICLES; NEUROPHYSIOLOGY;

SENSORS;

EID: 84887295578     PISSN: 09254005     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.snb.2013.10.013     Document Type: Article

References (34)

1. C. Wang, R. Yuan, Y.Q. Chai, Y. Zhang, F.X. Hu, and M.H. Zhang Au-nanoclusters incorporated 3-amino-5-mercapto-1,2,4-triazole film modified electrode for the simultaneous determination of ascorbic acid, dopamine, uric acid and nitrite Biosens. Bioelectron. 30 2011 315 319
2. L.L. Li, H.Y. Liu, Y.Y. Shen, J.R. Zhang, and J.J. Zhu Electrogenerated chemiluminescence of Au nanoclusters for the detection of dopamine Anal. Chem. 83 2011 661 665
3. R.M. Wightman, L.J. May, and A.C. Michael Detection of dopamine dynamics in the brain Anal. Chem. 60 1988 769A 779A
4. + for determination of dopamine Sens. Actuators, B 176 2013 97 102
5. F.D.P. Ferreira, L.I.B. Silva, A.C. Freitas, T.A.P. Rocha-Santosa, and A.C. Duarte High performance liquid chromatography coupled to an optical fiber detector coated with laccase for screening catecholamines in plasma and urine J. Chromatogr. A. 1216 2009 7049 7054
6. Y. Sakaguchi, H. Yoshida, T. Hayama, M. Itoyama, K. Todoroki, M. Yamaguchi, and H. Nohta Selective liquid-chromatographic determination of native fluorescent biogenic amines in human urine based on fluorous derivatization J. Chromatogr. A. 1218 2011 5581 5586
7. C.L. Guan, J. Ouyang, Q.L. Li, B.H. Liu, and W.R.G. Baeyens Simultaneous determination of catecholamines by ion chromatography with direct conductivity detection Talanta 50 2000 1197 1203
8. D.J.E. Piper, G.J. Barbante, N. Brack, P.J. Pigram, and C.F. Hogan Highly stable ECL active films formed by the electrografting of a diazotized ruthenium complex generated in situ from the amine Langmuir 27 2011 474 480
9. X. Cai, J.L. Yan, H.H. Chu, M.S. Wu, and Y.F. Tu An exercise degree monitoring biosensor based on electrochemiluminescent detection of lactate in sweat Sens. Actuators, B 143 2010 655 659
10. Q.H. Cai, L.F. Chen, F. Luo, B. Qiu, Z.Y. Lin, and G.N. Chen Determination of cocaine on banknotes through an aptamer-based electrochemiluminescence biosensor Anal. Bioanal. Chem. 400 2011 289 294
11. Z.Y. Lin, J.H. Chen, and G.N. Chen An ECL biosensor for glucose based on carbon-nanotube/nafion film modified glass carbon electrode Electrochim. Acta 53 2008 2396 2401
12. X. Liu, L.X. Cheng, J.P. Lei, and H.X. Ju Dopamine detection based on its quenching effect on the anodic electrochemiluminescence of CdSe quantum dots Analyst 133 2008 1161 1163
13. M. Ghita, and D.W.M. Arrigan Dopamine voltammetry at overoxidised polyindole electrodes Electrochim. Acta 49 2004 4743 4751
14. L.Y. Jin, X. Gao, L.S. Wang, Q. Wu, Z.C. Chen, and X.F. Lin Electrochemical activation of polyethyleneimine-wrapped carbon nanotubes/in situ formed gold nanoparticles functionalised nanocomposite sensor for high sensitive and selective determination of dopamine J. Electroanal. Chem. 692 2013 1 8
15. S.S. Peng, G.Z. Zou, and X.L. Zhang Nanocomposite of electrochemically reduced graphene oxide and goldnanoparticles enhanced electrochemilunescence of peroxydisulfate and its immunosensing abililty towards human IgG J. Electroanal. Chem. 686 2012 25 31
16. Y.P. Dong, J. Zhang, Y. Ding, X.F. Chu, and J. Chen Electrogenerated chemiluminescence of luminol at a polyaniline/grapheme modified electrode in neutral solution Electrochim. Acta 91 2013 240 245
17. Y.Q. Yu, M. Zhou, W. Shen, H.L. Zhang, Q. Cao, and H. Cui Synthesis of electrochemiluminescent graphene oxide functionalized with a ruthenium (II) complex and its use in the detection of tripropylamine Carbon 50 2012 2539 2545
18. X.W. Hu, C.J. Mao, J.M. Song, H.L. Niu, S.Y. Zhang, and H.P. Huang Fabrication of GO/PANi/CdSe nanocomposites for sensitive electrochemiluminescence biosensor Biosens. Bioelectron. 41 2013 372 378
19. Y. Chen, Y.Y. Shen, D. Sun, H.Y. Zhang, D.B. Tian, J.R. Zhang, and J.J. Zhu Fabrication of a dispersible graphene/gold nanoclusters hybrid and its potential application in electrogenerated chemiluminescence Chem. Commun. 47 2011 11733 11735
20. Y. Chen, Y. Li, D. Sun, D.B. Tian, J.R. Zhang, and J.J. Zhu Fabrication of gold nanoparticles on bilayer graphene for glucose electrochemical biosensing J. Mater. Chem. 21 2011 7604 7611
21. D. Li, M.B. Müller, S. Gilje, R.B. Kaner, and G.G. Wallace Processable aqueous dispersions of graphene nanosheets Nat. Nanotechnol. 3 2008 101 105 (Pubitemid 351225404)
22. X.G. Hu, T. Wang, X.H. Qu, and S.J. Dong In situ synthesis and characterization of multiwalled carbon nanotube/Au nanoparticle composite materials J. Phys. Chem. B 110 2006 853 857 (Pubitemid 43164708)
23. S.T. Wang, J.C. Yan, and L. Chen Formation of gold nanoparticles and self-assembly into dimer and trimer aggregates Mater. Lett. 59 2005 1383 1386 (Pubitemid 40308975)
24. B. Qiu, Z.Y. Lin, J. Wang, Z.H. Chen, J.H. Chen, and G.N. Chen An electrochemiluminescent biosensor for glucose based on the electrochemiluminescence of luminol on the nafion/glucose oxidase/ poly(nickel(II)tetrasulfophthalocyanine)/multi-walled carbon nanotubes modified electrode Talanta 78 2009 76 80
25. B. Haghighi, and S. Bozorgzadeh Enhanced electrochemiluminescence from luminol at multi-walled carbon nanotubes decorated with palladium nanoparticles: a novel route for the fabrication of an oxygen sensor and a glucose biosensor Anal. Chim. Acta 697 2011 90 97
26. X.Q. Liu, W.X. Niu, H.J. Li, S. Han, L.Z. Hu, and G.B. Xu Glucose biosensor based on gold nanoparticle-catalyzed luminol electrochemiluminescence on a three-dimensional sol-gel network Electrochem. Commun. 10 2008 1250 1253
27. H. Niu, R. Yuan, Y.Q. Chai, L. Mao, Y.L. Yuan, Y. Zhuo, S.R. Yuan, and X. Yang Electrochemiluminescence of peroxydisulfate enhanced by l-cysteine film for sensitive immunoassay Biosens. Bioelectron. 26 2011 3175 3180
28. J. Zheng, W.J. Feng, L. Lin, F. Zhang, G.F. Cheng, P.G. He, and Y.Z. Fang A new amplification strategy for ultrasensitive electrochemical aptasensor with network-like thiocyanuric acid/gold nanoparticles Biosens. Bioelectron. 23 2007 341 347 (Pubitemid 47499024)
29. L.J. Bai, R. Yuan, Y.Q. Chai, Y.L. Yuan, Y. Zhuo, and L. Mao Bi-enzyme functionalized hollow PtCo nanochains as labels for an electrochemical aptasensor Biosens. Bioelectron. 26 2011 4331 4336
30. 4 nanoparticles for electrochemical applications J. Phys. Chem. Solids 72 2011 1027 1031
31. A.S. Adekunle, B.O. Agboola, J. Pillay, and K.I. Ozoemena Electrocatalytic detection of dopamine at single-walled carbon nanotubes-iron (III) oxide nanoparticles platform Sens. Actuators, B 148 2010 93 102
32. 2Se quantum dots for the detection of dopamine Anal. Chem. 84 2012 8932 8935
33. 2 film on electrodes: photoelectrochemical sensing of NADH under visible irradiation Biosens. Bioelectron. 24 2009 2494 3498
34. - based on graphene/poly-cyclodextrin/MWCNTs nanocomposite platform Biosens. Bioelectron. 26 2011 3977 3980