Highly stable and sensitive amperometric sensor for the determination of trace level hydrazine at cross linked pectin stabilized gold nanoparticles decorated graphene nanosheets

Electrochimica Acta

Volumn 135, Issue , 2014, Pages 260-269

  Devasenathipathy, Rajkumar ^a   Mani, Veerappan ^a   Chen, Shen Ming ^a   Arulraj, Daneial ^b   Vasantha, V S ^b  

^a NATIONAL TAIPEI UNIVERSITY OF TECHNOLOGY   (Taiwan)

^b MADURAI KAMARAJ UNIVERSITY   (India)

Author keywords

Gold nanoparticles; Graphene; Hydrazine; Pectin; Practicality; Selectivity

Indexed keywords

AMPEROMETRIC SENSORS; CATALYST SELECTIVITY; CATALYTIC OXIDATION; COMPOSITE FILMS; CYCLIC VOLTAMMETRY; DIFFUSION; ENERGY DISPERSIVE SPECTROSCOPY; GLASS MEMBRANE ELECTRODES; GOLD; GRAPHENE; METAL NANOPARTICLES; SCANNING ELECTRON MICROSCOPY; X RAY DIFFRACTION;

AMPEROMETRIC DETERMINATION; ELECTRON TRANSFER COEFFICIENT; ENERGY DISPERSIVE X-RAY SPECTROSCOPY; GOLD NANOPARTICLES; MODIFIED GLASSY CARBON ELECTRODE; PECTIN; PRACTICALITY; X-RAY DIFFRACTION STUDIES;

HYDRAZINE;

EID: 84901650306     PISSN: 00134686     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.electacta.2014.05.002     Document Type: Article

References (48)

1. Y. Shao, J. Wang, H. Wu, J. Liu, I.A. Aksay, and Y. Lin Graphene based electrochemical sensors and biosensors: A Review Electroanalysis 22 2010 1027
2. C.N.R. Rao, A.K. Sood, R. Voggu, and K.S. Subrahmanyam Some novel attributes of graphene J. Phys. Chem. Lett 1 2010 572
3. T.T. Ramanathan, A.A. Abdala, S. Stankovich, D.A. Dikin, H.M. Alonso, and R.D. Piner Functionalized graphene sheets for polymer nanocomposites Nat. Nanotech 3 2008 327
4. S. Stankovich, R.D. Piner, X.Q. Chen, N.Q. Wu, S.T. Nguyen, and R.S. Ruoff Stable aqueous dispersions of graphitic nanoplatelets via the reduction of exfoliated graphite oxide in the presence of poly(sodium 4-styrenesulfonate) J. Mater. Chem 16 2006 155
5. X.K. Lu, M.F. Yu, H. Huang, and R.S. Ruoff Tailoring graphite with the goal of achieving single sheets Nanotechnology 10 1999 269
6. A.P. Yu, P. Ramesh, M.E. Itkis, E. Bekyarova, and R.C. Haddon Graphite nanoplatelet-epoxy composite thermal interface materials J. Phys. Chem. C 111 2007 7565
7. Y. Gan, L. Sun, and F. Banhart One- and two-dimensional diffusion of metal atoms in graphene Small 4 2008 587
8. R. Muszynski, B. Seger, and P.V. Kamat Decorating graphene sheets with gold nanoparticles J. Phys. Chem. C 112 2008 5263
9. C. Xu, X. Wang, and J. Zhu Graphene-metal particle nanocomposites J. Phys. Chem. C 112 2008 19841
10. Q. Zhuo, Y. Ma, J. Gao, P. Zhang, Y. Xia, Y. Tian, X. Sun, J. Zhong, and X. Sun Facile synthesis of graphene/metal nanoparticle composites via self-catalysis reduction at room temperature Inorg. Chem 52 2013 3141
11. B. Wu, Y. Kuang, X. Zhang, and J. Chen Noble metal nanoparticles/carbon nanotubes nanohybrids: Synthesis and applications Nano Today 6 2011 75
12. V.K. Ponnusamy, V. Mani, S.-M. Chen, W.-T. Huang, and J.F. Jen Rapid microwave assisted synthesis of graphene nanosheets/polyethyleneimine/gold nanoparticle composite and its application to the selective electrochemical determination of dopamine Talanta 120 2014 148
13. S.F. Ahrabi, G. Madsen, K. Dyrstad, S.A. Sande, and C. Graffner Development of pectin matrix tablets for colonic delivery of model drug ropivacaine Eur. J. Pharm. Sci 10 2000 43
14. B.R. Thakur, R.K. Singh, A.K. Handa, and M.A. Rao Tea flavonoids and cardiovascular diseases: A review Crit. Rev. Food Sci 37 1997 47
15. J.E. Troyan Properties, Production, and Uses of Hydrazine Ind. Eng. Chem 45 1953 2608
16. Y. Wang, Y. Wan, and D. Zhang Reduced graphene sheets modified glassy carbon electrode for electrocatalytic oxidation of hydrazine in alkaline media Electrochem. Commun 12 2010 187
17. M.M. Ardakani, and A. Khoshroo An electrochemical study of benzofuran derivative in modified electrode-based CNT/ionic liquids for determining nanomolar concentrations of hydrazine Electrochim. Acta 103 2013 77
18. D. Steinhoff, and U. Mohr The question of carcinogenic effects of hydrazine J. Exp. Pathol 33 1988 133
19. C.M. Morenoa, T. Stadler, A.A. Silva, L.C.A. Barbosa, and M.E.L.R. Queiroz Determination of maleic hydrazide residues in garlic bulbs by HPLC Talanta 89 2012 369
20. G.W. Watt, and J.D. Chrisp A spectrophotometric method for the determination of hydrazine J. Anal. Chem 24 1952 2006
21. A. Safavi, and M.A. Karimi Flow injection chemiluminescence determination of hydrazine by oxidation with chlorinated isocyanurates Talanta 58 2002 785
22. M. Sun, L. Bai, and D.Q. Liu A generic approach for the determination of trace hydrazine in drug substances using in situ derivatization-headspace GC-MS J. Pharm. Biomed. Anal 49 2009 529
23. M.A. Koupparis, and T.P. Hadjiioannou Indirect potentiometric determination of hydrazine, isoniazid, sulphide and thiosulphate with a chloramine-T ion-selective electrode Talanta 25 1978 477
24. S.K. Kim, Y.N. Jeong, M.S. Ahmed, J-M. You, H.C. Choi, and S. Jeon Electrocatalytic determination of hydrazine by a glassy carbon electrode modified with PEDOT/MWCNTs-Pd nanoparticles Sensor Actuat. B-Chem 153 2011 246
25. C. Wang, L. Zhang, Z. Guo, J. Xu, H. Wang, K. Zhai, and X. Zhuo A novel hydrazine electrochemical sensor based on the high specific surface area graphene Microchim. Acta 169 2010 1
26. A. Umar, M.M. Rahman, S.H. Kim, and Y.B. Hahn Zinc oxide nanonail based chemical sensor for hydrazine detection Chem. Commun 2008 166
27. M.M. Ardakani, P.E. karami, P. Rahimi, H.R. Zare, and H. Naeimi Electrocatalytic hydrazine oxidation on quinizarine modified glassy carbon electrode Electrochim. Acta 52 2007 6118
28. S.H. Wu, F.H. Nie, Q.Z. Chen, and J.J. Sun Electrocatalytic oxidation and nanomolar detection of hydrazine by luteolin electrodeposited at a multi-walled carbon nanotube and ionic liquid composite modified screen printed carbon electrode Anal. Methods 2 2010 1729
29. W.S. Hummers, and R.E. Offeman Preparation of Graphitic Oxide J. Am. Chem. Soc 80 1958 1339
30. D.G. Oakenfull, and R.H. Walter The chemistry of high-methoxyl pectins, In The chemistry and technology of pectin 1991 Academic Press New York
31. M. Rajkumar, S.C. Chiou, S.M. Chen, and S. Thiagarajan A novel poly (taurine)/nano gold modified electrode for the determination of arsenic in various water samples Int. J. Electrochem. Sci 6 2011 3789
32. H.L. Guo, X.F. Wang, Q.Y. Qian, F.B. Wang, and X.H. Xia A green approach to the synthesis of graphene nanosheets ACS Nano 3 2009 2653
33. B.D. Cullity Elements of X-ray Diraction 1978 Addison-Wesley Publication USA
34. V.S. Vasantha, and Shen-Ming Chen Synergistic effect of a catechin-immobilizedpoly(3,4-ethylenedioxythiophene)-modified electrode on electrocatalysis of NADH in the presenceof ascorbic acid and uric acid Electrochimica Acta 52 2006 665
35. I. Streeter, G.G. Wildgoose, L. Shao, and R.G. Compton Cyclic voltammetry on electrode surfaces covered with porous layers: An analysis of electron transfer kinetics at single-walled carbon nanotube modified electrodes Sensor Actuat. B-Chem 133 2008 462
36. A.J. Bard, and L.R. Faulkner Electrochemical Methods- Fundamentals and Applications 2001 Wiley New York
37. C.Y. Lin, A. Balamurugan, Y.H. Lai, and K.C. Ho A novel poly(3,4-ethylenedioxythiophene)/iron phthalocyanine/multi-wall carbon nanotubes nanocomposite with high electrocatalytic activity for nitrite oxidation Talanta 82 2010 1905
38. J. Li, H. Xie, and L. Chen A sensitive hydrazine electrochemical sensor based on electrodeposition of gold nanoparticles on choline film modified glassy carbon electrode Sensor Actuat. B-Chem 153 2011 239
39. V.S. Vasantha, and S.M. Chen Electrocatalysis and simultaneous detection of dopamine and ascorbic acid using poly (3,4-ethylenedioxy) thiophene film modified electrodes J. Electroanal. Chem 592 2006 77
40. A. Radoi, D. Compagnone, E. Devic, and G. Palleschi Low potential detection of NADH with Prussian Blue bulk modified screen-printed electrodes and recombinant NADH oxidase from Thermus thermophilus Sensor Actuat. B-Chem 121 2007 501
41. J.L. Lyon, and K.J. Stevenson Picomolar peroxide detection using a chemically activated redox mediator and square wave voltammetry Anal. Chem 78 2006 8518
42. J. Liu, Y. Li, J. Jiang, and X. Huang C@ZnO nanorod array-based hydrazine electrochemical sensor with improved sensitivity and stability Dalton Trans 39 2010 8693
43. L. Zheng, and J.f. Song Curcumin multi-wall carbon nanotubes modified glassy carbon electrode and its electrocatalytic activity towards oxidation of hydrazine Sensor Actuat. B-Chem 135 2009 650
44. M.A. Aziz, and A.N. Kawde Gold nanoparticle-modified graphite pencil electrode for the high-sensitivity detection of hydrazine Talanta 115 2013 214
45. S. Kocak, and B. AslIsen Hydrazine oxidation at gold nanoparticles and poly(bromocresol purple) carbon nanotube modified glassy carbon electrode Sensor Actuat. B-Chem 196 2014 610
46. M.B. Gholivand, and A. Azadbakht A novel hydrazine electrochemical sensor based on a zirconium hexacyanoferrate film-bimetallic Au-Pt inorganic-organic hybrid nanocomposite onto glassy carbon-modified electrode Electrochim. Acta 56 2011 10044
47. J. Li, and X. Lin Electrocatalytic oxidation of hydrazine and hydroxylamine at gold nanoparticle-polypyrrole nanowire modified glassy carbon electrode Sensor Actuat. B-Chem 126 2007 527
48. Y.Y. Tang, C.L. Kao, and P.Y. Chen Electrochemical detection of hydrazine using a highly sensitive nanoporous gold electrode Anal. Chim. Acta 711 2012 32