Publications

1. Materon EM, Wong A, Fatibello-Filho O, Faria RC. Development of a simple electrochemical sensor for the simultaneous detection of anticancer drugs. J Electroanal Chem. 2018;827:64-72. doi:10.1016/j.jelechem.2018.09.010

2. de Oliveira TR, Martucci DH, Faria RC. Simple disposable microfluidic device for Salmonella typhimurium detection by magneto-immunoassay. Sensors Actuators B Chem. 2018;255:684-691. doi:10.1016/j.snb.2017.08.075

3. Uliana C V., Peverari CR, Afonso AS, Cominetti MR, Faria RC. Fully disposable microfluidic electrochemical device for detection of estrogen receptor alpha breast cancer biomarker. Biosens Bioelectron. 2018;99:156-162. doi:10.1016/j.bios.2017.07.043

4. Pesquero NC, Carvalho FC, Faria RC, Roque-Barreira M-C, Bueno PR. ArtinM Binding Effinities and Kinetic Interaction with Leukemia Cells: A Quartz Crystal Microbalance Bioelectroanalysis on the Cytotoxic Effect. Electroanalysis. 2017;29(6):1554-1558. doi:10.1002/elan.201700093

5. de Oliveira RAG, Camargo F, Pesquero NC, Faria RC. A simple method to produce 2D and 3D microfluidic paper-based analytical devices for clinical analysis. Anal Chim Acta. 2017;957:40-46. doi:10.1016/j.aca.2017.01.002

6. Afonso AS, Uliana C V., Martucci DH, Faria RC. Simple and rapid fabrication of disposable carbon-based electrochemical cells using an electronic craft cutter for sensor and biosensor applications. Talanta. 2016;146:381-387. doi:10.1016/j.talanta.2015.09.002

7. Faria, R. C., Oliveira T. R., Erbereli, C. R., Moralles, P. R. M. CMR. Dispositivo para detecção do biomarcador ADAM10 para o diagnóstico da doença de Alzheimer, método de aplicação do referido dispositivo, uso do dito dispositivo para diagnóstico da doença de Alzheimer, método de aplicação de ELISA para diagnóstico da doenç. 2016.

8. Faria RC, Uliana CV., Afonso AS. Dispositivo microfluídico e método de fabricação de dispositivo microfluídico. 2016.

9. Cornelio VE, Pedroso MM, Afonso AS, et al. New approach for natural products screening by real-time monitoring of hemoglobin hydrolysis using quartz crystal microbalance. Anal Chim Acta. 2015;862:86-93. doi:10.1016/j.aca.2015.01.003

10. Bezerra dos Santos V, Fava EL, Sá de Miranda Curi N, Faria RC, Guerreiro TB, Fatibello-Filho O. An electrochemical analyzer for in situ flow determination of Pb( <scp>ii</scp> ) and Cd( <scp>ii</scp> ) in lake water with on-line data transmission and a global positioning system. Anal Methods. 2015;7(7):3105-3112. doi:10.1039/C5AY00012B

11. Kadimisetty K, Malla S, Sardesai NP, et al. Automated Multiplexed ECL Immunoarrays for Cancer Biomarker Proteins. Anal Chem. 2015;87(8):4472-4478. doi:10.1021/acs.analchem.5b00421

12. Rusling JF, Bishop GW, Doan NM, Papadimitrakopoulos F. Nanomaterials and biomaterials in electrochemical arrays for protein detection. J Mater Chem B. 2014;2(1):12-30. doi:10.1039/C3TB21323D

13. Pessoa-Neto OD, dos Santos VB, Vicentini FC, et al. A low-cost automated flow analyzer based on low temperature co-fired ceramic and LED photometer for ascorbic acid determination. Cent Eur J Chem. 2014;12(3):341-347. doi:10.2478/s11532-013-0377-2

14. dos Santos VB, Fava EL, Pessoa-Neto OD, Bianchi SR, Faria RC, Fatibello-Filho O. A versatile and robust electrochemical flow cell with a boron-doped diamond electrode for simultaneous determination of Zn2+ and Pb2+ ions in water samples. Anal Methods. 2014. doi:10.1039/C4AY01811G

15. dos Santos VB, Fava EL, de Miranda Curi NS, Faria RC, Fatibello-Filho O. A thermostated electrochemical flow cell with a coupled bismuth film electrode for square-wave anodic stripping voltammetric determination of cadmium(II) and lead(II) in natural, wastewater and tap water samples. Talanta. 2014;126:82-90. doi:10.1016/j.talanta.2014.03.015

16. Vicentini FC, Silva TA, Pellatieri A, Janegitz BC, Fatibello-Filho O, Faria RC. Pb(II) determination in natural water using a carbon nanotubes paste electrode modified with crosslinked chitosan. Microchem J. 2014;116:191-196. doi:10.1016/j.microc.2014.05.008

17. Marreto PD, Zimer AM, Faria RC, et al. Multivariate linear regression with variable selection by a successive projections algorithm applied to the analysis of anodic stripping voltammetry data. Electrochim Acta. 2014;127:68-78. doi:10.1016/j.electacta.2014.02.029

18. Otieno BA, Krause CE, Latus A, Chikkaveeraiah B V, Faria RC, Rusling JF. On-line protein capture on magnetic beads for ultrasensitive microfluidic immunoassays of cancer biomarkers. Biosens Bioelectron. 2014;53:268-274. doi:10.1016/j.bios.2013.09.054

19. Janegitz BC, dos Santos FA, Faria RC, Zucolotto V. Electrochemical determination of estradiol using a thin film containing reduced graphene oxide and dihexadecylphosphate. Mater Sci Eng C. 2014;37(0):14-19. doi:http://dx.doi.org/10.1016/j.msec.2013.12.026

20. Wasalathanthri DP, Malla S, Bist I, Tang CK, Faria RC, Rusling JF. High-throughput metabolic genotoxicity screening with a fluidic microwell chip and electrochemiluminescence. Lab Chip. 2013;13(23):4554-4562.

21. Krause CE, Otieno BA, Latus A, et al. Rapid microfluidic immunoassays of cancer biomarker proteins using disposable inkjet-printed gold nanoparticle arrays. ChemistryOpen. 2013;2(4):141-145. doi:10.1002/open.201300018

22. Afonso AS, Pérez-López B, Faria RC, et al. Electrochemical detection of Salmonella using gold nanoparticles. Biosens Bioelectron. 2013;40(1):121-126.

23. Sardesai NP, Kadimisetty K, Faria R, Rusling JF. A microfluidic electrochemiluminescent device for detecting cancer biomarker proteins. Anal Bioanal Chem. 2013;405(11):3831-3838. doi:10.1007/s00216-012-6656-5

24. Sardesai NP, Kadimisetty K, Faria R, Rusling JF. A microfluidic electrochemiluminescent device for detecting cancer biomarker proteins. Anal Bioanal Chem. 2013;405(11):3831-3838. doi:10.1007/s00216-012-6656-5

25. de Pieri Troiani E, Rodrigues Pereira-Filho E, Censi Faria R, Troiani E de P, Pereira-Filho ER, Faria RC. Chemometric Strategies to Develop a Nanocomposite Electrode for Simultaneous Determination of Ascorbic Acid, Dopamine, and Uric Acid. Electroanalysis. 2013;25(8):1988-1994. doi:10.1002/elan.201300166

26. Troiani E de P, Faria R. Cathodically pretreated poly(1-aminoanthraquinone)-modified electrode for determination of ascorbic acid, dopamine, and uric acid. J Appl Electrochem. 2013;43(9):919-926. doi:10.1007/s10800-013-0577-7

27. Suarez WT, Pessoa-Neto OD, Santos VB dos, et al. A compact miniaturized flow system based on low-temperature co-fired ceramic technology coupled to LED mini-photometer for determination of dipyrone in pharmaceutical formulations. J Braz Chem Soc. 2013;24:847-855. http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-50532013000500018&nrm=iso.

28. Krause CE, Otieno BA, Latus A, et al. Rapid Microfluidic Immunoassays of Cancer Biomarker Proteins Using Disposable Inkjet-Printed Gold Nanoparticle Arrays. ChemistryOpen. 2013;2(4):141-145. doi:10.1002/open.201300018

29. Bueno PR, Goncalves LM, dos Santos FC, dos Santos ML, Barros AA, Faria RC. Electrogravimetric Analysis by Quartz-Crystal Microbalance on the Consumption of the Neurotransmitter Acetylcholine by Acetylcholinesterase. Anal Lett. 2013;46(2):258-265. doi:10.1080/00032719.2012.713065

30. Foschini M, Marletta A, Faria RC, et al. Electrochemically Prepared Polypyrrole-2-Carboxylic Acid Films: Synthesis Protocols and Studies on Biosensors. Electroanalysis. 2013;25(3):741-749. doi:10.1002/elan.201200574

31. Afonso AS, Zanetti BF, Santiago AC, Henrique-Silva F, Mattoso LHC, Faria RC. QCM immunoassay for recombinant cysteine peptidase: A potential protein biomarker for diagnosis of citrus canker. Talanta. 2013;104:193-197. doi:10.1016/j.talanta.2012.11.003

32. Afonso AS, Lopez BP, Faria RC, Mattoso LHC. Electrochemical Detection of Salmonella using Gold Nanoparticles. 2012;40(1):121-126.

33. Figueiredo LCS, Janegitz BC, Faria RC, et al. Construction and application of a bismuth-film mini sensor using low cost materials for in loco voltammetric determinations. Quim Nova. 2012;35(5):1016-1019.

34. Faria RC, Malla S, Joshi AA, Schenkman JB, Rusling JF. Multiplexed Microfluidic System for Screening Reactive Metabolites from Multienzyme Bioactivation. Submetido. 2012.

35. Pedroso MM, Pesquero NC, Thomaz SMO, Roque-Barreira MC, Faria RC, Bueno PR. Jacalin interaction with human immunoglobulin A1 and bovine immunoglobulin G1: Affinity constant determined by piezoelectric biosensoring. Glycobiology. 2012;22(3):326-331. doi:10.1093/glycob/cwr099

36. Lazerges M, Perrot H, Rabehagasoa N, et al. DNA hybridization mechanism in an interfacial environment: What hides beneath first order k (s(-1)) kinetic constant? Sensors and Actuators B-Chemical. 2012;171:522-527. doi:10.1016/j.snb.2012.05.023

37. Wasalathanthri DP, Malla S, Faria RC, Rusling JF. Electrochemical Activation of the Natural Catalytic Cycle of Cytochrome P450s in Human Liver Microsomes. Electroanalysis. 2012;24(11):2049-2052. doi:10.1002/elan.201200373

38. dos Santos VB, Guerreiro TB, Faria RC, Fatibello O, Suarez WT. Construction and application of a portable microcontrolled turbidimeter for the in situ determination of sulfate. Quim Nova. 2012;35(4):802-807.

39. Dos Santos VB, Guerreiro TB, Suarez WT, Faria RC, Fatibello-Filho O. Evaluation of turbidimetric and nephelometric techniques for analytical determination of N-acetylcysteine and thiamine in pharmaceutical formulations employing a lab-made portable microcontrolled turbidimeter and nephelometer. J Braz Chem Soc. 2011;22(10).

40. Dos Santos VBB, Guerreiro TBB, Suarez WTT, Faria RCC, Fatibello-Filho O, Fatibello O. Evaluation of Turbidimetric and Nephelometric Techniques for Analytical Determination of N-Acetylcysteine and Thiamine in Pharmaceutical Formulations Employing a Lab-Made Portable Microcontrolled Turbidimeter and Nephelometer. J Braz Chem Soc. 2011;22(10):1968-1978.

41. Dos Santos VBB, Guerreiro TBB, Suarez WTT, Faria RCC, Fatibello-Filho O. A Low-Cost Portable Microcontrolled Nephelometer for Potassium Determination. J Braz Chem Soc. 2011;22(4):726-U186. doi:10.1590/S0103-50532011000400016

42. Dos Santos VBB, Guerreiro TBB, Suarez WTT, Faria RCC, Fatibello-Filho O. A Low-Cost Portable Microcontrolled Nephelometer for Potassium Determination. J Braz Chem Soc. 2011;22(4):726-U186. doi:10.1590/S0103-50532011000400016

43. Sartori ER, Barbosa NV, Faria RC, Fatibello-Filho O. Conductometric determination of propranolol hydrochloride in pharmaceuticals. Eclet Quim. 2011;36(1).

44. Suarez WT, Pessoa-Neto OD, Vicentini FC, Janegitz BC, Faria RC, Fatibello O. Flow Injection Spectrophotometric Determination of Dipyrone in Pharmaceutical Formulations Using Fe(III) as Reagent. Anal Lett. 2011;44(1-3):340-348. doi:10.1080/00032719.2010.500777

45. da Silva QG, Barbosa NV, Troiani E de P, Faria RC. Electrochemical Determination of Norepinephrine on Cathodically Pretreated Poly(1,5-diaminonaphthalene) Modified Electrode. Electroanalysis. 2011;23(6):1359-1364. doi:10.1002/elan.201100001

46. Alves CA, Pedroso MM, de Moraes MC, Souza DHF, Cass QB, Faria RC. Real-time investigation of mannosyltransferase function of a Xylella fastidiosa recombinant GumH protein using QCM-D. Biochem Biophys Res Commun. 2011;408(4):571-575. doi:10.1016/j.bbrc.2011.04.062

47. Suarez WT, Pessoa-Neto OD, Janegitz BC, Vieira HJ, Faria RC, Fatibello O. Flow injection spectrophotometric determination of n-acetylcysteine and captopril employing prussian blue generation reaction. Anal Lett. 2011;44(14):2394-2405. doi:10.1080/00032719.2010.551696

48. Alcantara GB, Paterno LG, Afonso AS, et al. Adsorption of cobalt ferrite nanoparticles within layer-by-layer films: a kinetic study carried out using quartz crystal microbalance. Phys Chem Chem Phys. 2011;13(48):21233-21242. doi:10.1039/c1cp22693b

49. de Pieri Troiani E, Faria RC, Troiani E de P, Faria RC. The Influence of the Cathodic Pretreatment on the Electrochemical Detection of Dopamine by Poly(1-aminoanthracene) Modified Electrode. Electroanalysis. 2010;22(19):2284-2289. doi:10.1002/elan.201000225

50. Suarez WT, Pessoa-Neto OD, dos Santos VB, et al. A compact miniaturized continuous flow system for the determination of urea content in milk. Anal Bioanal Chem. 2010;398(3):1525-1533. doi:10.1007/s00216-010-4052-6

51. Bueno PR, Watanabe AM, Faria RC, Santos ML, Riccardi CS. Electrogravimetric Real-Time and in Situ Michaelis-Menten Enzimatic Kinetics: Progress Curve of Acetylcholinesterase Hydrolysis. J Phys Chem B. 2010;114(49):16605-16610. doi:10.1021/jp106274m

52. Pesquero NC, Pedroso MM, Watanabe AM, et al. Real-time monitoring and kinetic parameter estimation of the affinity interaction of jArtinM and rArtinM with peroxidase glycoprotein by the electrogravimetric technique. Biosens Bioelectron. 2010;26(1):36-42. doi:10.1016/j.bios.2010.04.047

53. de Figueiredo LCS, dos Santos VB, Janegitz BC, et al. Differential Pulse Voltammetric Determination of Paraquat Using a Bismuth-Film Electrode. Electroanalysis. 2010;22(11):1260-1266. doi:10.1002/elan.200900553

54. Janegitz BC, Marcolino LH, Campana SP, Faria RC, Fatibello O. Anodic stripping voltammetric determination of copper(II) using a functionalized carbon nanotubes paste electrode modified with crosslinked chitosan. Sensors and Actuators B-Chemical. 2009;142(1):260-266. doi:10.1016/j.snb.2009.08.033

55. Da Silva PHP, Oliveira A, Neves EA, Faria RC. Potentiometric titrations of metal cations with edta using the Cu/Cu(II-EDTA system as indicator electrode | Titula??es potenciom?tricas de c?tions met?licos tendo como eletrodo indicador o sistema Cu/Cu(II)-EDTA. Quim Nova. 2008;31(2). doi:10.1590/S0100-40422008000200007

56. Pedroso MM, Watanabe AM, Roque-Barreira MC, Bueno PR, Faria RC. Quartz Crystal Microbalance monitoring the real-time binding of lectin with carbohydrate with high and low molecular mass. Microchem J. 2008;89(2):153-158. doi:10.1016/j.microc.2008.02.001

57. Nunes LMS, Faria RC. The Influence of the Electrodeposition Conditions on the Electroanalytical Performance of the Bismuth Film Electrode for Lead Determination. Electroanalysis. 2008;20(20):2259-2263. doi:10.1002/elan.200804293

58. da Silva PHP, Oliveira A, Neves EA, Faria RC. Potentiometric titrations of metal cations with EDTA using the Cu/Cu(II)-EDTA system as indicator electrode. Quim Nova. 2008;31(2):227-231.

59. Conceicao CDC, Faria RC, Fatibello O, Tanaka AA. Electrocatalytic oxidation and voltammetric determination of hydrazine in industrial boiler feed water using a cobalt phthalocyanine-modified electrode. Anal Lett. 2008;41(6):1010-1021. doi:10.1080/00032710801978525

60. Bueno PR, Ferreira FF, Gimenez-Romero D, et al. Synchrotron structural characterization of electrochemically synthesized hexacyanoferrates containing K(+): A revisited analysis of electrochemical redox. J Phys Chem C. 2008;112(34):13264-13271. doi:10.1021/jp802070f

61. Santos LF, Faria RC, Gaffo L, Carvalho LM, Faria RM, Goncalves D. Optical, electrochemical and electrogravimetric behavior of poly(1-methoxy-4-(2-ethyl-hexyloxy)-p-phenylene vinylene) (MEH-PPV) films. Electrochim Acta. 2007;52(13):4299-4304. doi:10.1016/j.electacta.2006.12.014

62. Amorim PRD, de Faria RC, Byrne NM, Hills AP. Physical activity and nutritional status of Brazilian children of low socioeconomic status: undernutrition and overweight. Asia Pac J Clin Nutr. 2006;15(2):217-223.

63. Gaffo L, Goncalves D, Faria RC, et al. Spectroscopic, electrochemical, and microgravimetric studies on palladium phthalocyanine films. J Porphyr Phthalocyanines. 2005;9(1):16-21. doi:10.1142/S1088424605000046

64. Gaffo L, Goncalves D, Faria RC, et al. Spectroscopic, electrochemical, and microgravimetric studies on palladium phthalocyanine films. J Porphyr Phthalocyanines. 2005;9(1):16-21. doi:10.1142/S1088424605000046

65. Bueno PR, Faria RC, Bulhoes LOS. EQCM study during lithium insertion/deinsertion processes in Nb2O5 films prepared by polymeric precursor method. Solid State Ionics. 2005;176(11-12):1175-1180. doi:10.1016/j.ssi.2005.02.007

66. Souza FL, Bueno PR, Faria RC, Longo E, Leite ER. Sol-gel non-hydrolytic synthesis of a nanocomposite electrolyte for application in Lithium-ion devices. In: Kelder EM, Leite ER, Tarascon JM, Chiang YM, eds. Nanostructured Materials in Alternative Energy Devices. Vol 822. ; 2004:15-23.

67. Bueno PR, Faria RC, Avellaneda CO, Leite ER, Bulhoes LOS. Li+ insertion into pure and doped amorphous WO3 films. Correlations between coloration kinetics, charge and mass accumulation. Solid State Ionics. 2003;158(3-4):415-426. doi:10.1016/s0167-2738(02)00907-4

68. Avellaneda CO, Bueno PR, Faria RC, Bulhoes LOS. Electrochromic properties of lithium doped WO3 films prepared by the sol-gel process. Electrochim Acta. 2001;46(13-14):1977-1981. doi:10.1016/s0013-4686(01)00372-3

69. Bueno PR, Avellaneda CO, Faria RC, Bulhoes LOS. Electrochromic properties of undoped and lithium doped Nb2O5 films prepared by the sol-gel method. Electrochim Acta. 2001;46(13-14):2113-2118. doi:10.1016/s0013-4686(01)00381-4

70. Goncalves D, Faria RC, Yonashiro M, Bulhoes LOS. Electrochemical oxidation of o-aminophenol in aqueous acidic medium: formation of film and soluble products. J Electroanal Chem. 2000;487(2):90-99. doi:10.1016/s0022-0728(00)00151-0

71. Faria RC, Bulhoes LOS. Synthesis and electrochemical response of poly-(1-aminoanthracene) films. Electrochim Acta. 1999;44(10):1597-1605.

72. Faria RC, Bulhoes LOS. Hydrogen ion selective electrode based on poly(1-aminoanthracene) film. Anal Chim Acta. 1998;377(1):21-27. doi:10.1016/s0003-2670(98)00522-4

73. Oliveira S, Faria RC, Terezo AJ, Pereira EC, Bulhoes LOS. The Cerium Addition Effect on the Electrochemical Properties of Niobium Pentoxide Electrochromic Thin Films. Vol 96. (Ho KC, Greenberg CB, MacArthur D, eds.).; 1997.

 

74. Faria RC, Bulhoes LOD. A NOVEL SYNTHETIC ROUTE TO NB2O5 THIN-FILMS FOR ELECTROCHROMIC DEVICES. J Electrochem Soc. 1994;141(3):L29-L30. doi:10.1149/1.2054827

2. de Oliveira TR, Martucci DH, Faria RC. Simple disposable microfluidic device for Salmonella typhimurium detection by magneto-immunoassay. Sensors Actuators B Chem. 2018;255:684-691. doi:10.1016/j.snb.2017.08.0753. Uliana C V., Peverari CR, Afonso AS, Cominetti MR, Faria RC. Fully disposable microfluidic electrochemical device for detection of estrogen receptor alpha breast cancer biomarker. Biosens Bioelectron. 2018;99:156-162. doi:10.1016/j.bios.2017.07.0434. Pesquero NC, Carvalho FC, Faria RC, Roque-Barreira M-C, Bueno PR. ArtinM Binding Effinities and Kinetic Interaction with Leukemia Cells: A Quartz Crystal Microbalance Bioelectroanalysis on the Cytotoxic Effect. Electroanalysis. 2017;29(6):1554-1558. doi:10.1002/elan.2017000935. de Oliveira RAG, Camargo F, Pesquero NC, Faria RC. A simple method to produce 2D and 3D microfluidic paper-based analytical devices for clinical analysis. Anal Chim Acta. 2017;957:40-46. doi:10.1016/j.aca.2017.01.0026. Afonso AS, Uliana C V., Martucci DH, Faria RC. Simple and rapid fabrication of disposable carbon-based electrochemical cells using an electronic craft cutter for sensor and biosensor applications. Talanta. 2016;146:381-387. doi:10.1016/j.talanta.2015.09.0027. Faria, R. C., Oliveira T. R., Erbereli, C. R., Moralles, P. R. M. CMR. Dispositivo para detecção do biomarcador ADAM10 para o diagnóstico da doença de Alzheimer, método de aplicação do referido dispositivo, uso do dito dispositivo para diagnóstico da doença de Alzheimer, método de aplicação de ELISA para diagnóstico da doenç. 2016.8. Faria RC, Uliana CV., Afonso AS. Dispositivo microfluídico e método de fabricação de dispositivo microfluídico. 2016.9. Cornelio VE, Pedroso MM, Afonso AS, et al. New approach for natural products screening by real-time monitoring of hemoglobin hydrolysis using quartz crystal microbalance. Anal Chim Acta. 2015;862:86-93. doi:10.1016/j.aca.2015.01.00310. Bezerra dos Santos V, Fava EL, Sá de Miranda Curi N, Faria RC, Guerreiro TB, Fatibello-Filho O. An electrochemical analyzer for in situ flow determination of Pb( <scp>ii</scp> ) and Cd( <scp>ii</scp> ) in lake water with on-line data transmission and a global positioning system. Anal Methods. 2015;7(7):3105-3112. doi:10.1039/C5AY00012B11. Kadimisetty K, Malla S, Sardesai NP, et al. Automated Multiplexed ECL Immunoarrays for Cancer Biomarker Proteins. Anal Chem. 2015;87(8):4472-4478. doi:10.1021/acs.analchem.5b0042112. Rusling JF, Bishop GW, Doan NM, Papadimitrakopoulos F. Nanomaterials and biomaterials in electrochemical arrays for protein detection. J Mater Chem B. 2014;2(1):12-30. doi:10.1039/C3TB21323D13. Pessoa-Neto OD, dos Santos VB, Vicentini FC, et al. A low-cost automated flow analyzer based on low temperature co-fired ceramic and LED photometer for ascorbic acid determination. Cent Eur J Chem. 2014;12(3):341-347. doi:10.2478/s11532-013-0377-214. dos Santos VB, Fava EL, Pessoa-Neto OD, Bianchi SR, Faria RC, Fatibello-Filho O. A versatile and robust electrochemical flow cell with a boron-doped diamond electrode for simultaneous determination of Zn2+ and Pb2+ ions in water samples. Anal Methods. 2014. doi:10.1039/C4AY01811G15. dos Santos VB, Fava EL, de Miranda Curi NS, Faria RC, Fatibello-Filho O. A thermostated electrochemical flow cell with a coupled bismuth film electrode for square-wave anodic stripping voltammetric determination of cadmium(II) and lead(II) in natural, wastewater and tap water samples. Talanta. 2014;126:82-90. doi:10.1016/j.talanta.2014.03.01516. Vicentini FC, Silva TA, Pellatieri A, Janegitz BC, Fatibello-Filho O, Faria RC. Pb(II) determination in natural water using a carbon nanotubes paste electrode modified with crosslinked chitosan. Microchem J. 2014;116:191-196. doi:10.1016/j.microc.2014.05.00817. Marreto PD, Zimer AM, Faria RC, et al. Multivariate linear regression with variable selection by a successive projections algorithm applied to the analysis of anodic stripping voltammetry data. Electrochim Acta. 2014;127:68-78. doi:10.1016/j.electacta.2014.02.02918. Otieno BA, Krause CE, Latus A, Chikkaveeraiah B V, Faria RC, Rusling JF. On-line protein capture on magnetic beads for ultrasensitive microfluidic immunoassays of cancer biomarkers. Biosens Bioelectron. 2014;53:268-274. doi:10.1016/j.bios.2013.09.05419. Janegitz BC, dos Santos FA, Faria RC, Zucolotto V. Electrochemical determination of estradiol using a thin film containing reduced graphene oxide and dihexadecylphosphate. Mater Sci Eng C. 2014;37(0):14-19. doi:http://dx.doi.org/10.1016/j.msec.2013.12.02620. Wasalathanthri DP, Malla S, Bist I, Tang CK, Faria RC, Rusling JF. High-throughput metabolic genotoxicity screening with a fluidic microwell chip and electrochemiluminescence. Lab Chip. 2013;13(23):4554-4562.21. Krause CE, Otieno BA, Latus A, et al. Rapid microfluidic immunoassays of cancer biomarker proteins using disposable inkjet-printed gold nanoparticle arrays. ChemistryOpen. 2013;2(4):141-145. doi:10.1002/open.20130001822. Afonso AS, Pérez-López B, Faria RC, et al. Electrochemical detection of Salmonella using gold nanoparticles. Biosens Bioelectron. 2013;40(1):121-126.23. Sardesai NP, Kadimisetty K, Faria R, Rusling JF. A microfluidic electrochemiluminescent device for detecting cancer biomarker proteins. Anal Bioanal Chem. 2013;405(11):3831-3838. doi:10.1007/s00216-012-6656-524. Sardesai NP, Kadimisetty K, Faria R, Rusling JF. A microfluidic electrochemiluminescent device for detecting cancer biomarker proteins. Anal Bioanal Chem. 2013;405(11):3831-3838. doi:10.1007/s00216-012-6656-525. de Pieri Troiani E, Rodrigues Pereira-Filho E, Censi Faria R, Troiani E de P, Pereira-Filho ER, Faria RC. Chemometric Strategies to Develop a Nanocomposite Electrode for Simultaneous Determination of Ascorbic Acid, Dopamine, and Uric Acid. Electroanalysis. 2013;25(8):1988-1994. doi:10.1002/elan.20130016626. Troiani E de P, Faria R. Cathodically pretreated poly(1-aminoanthraquinone)-modified electrode for determination of ascorbic acid, dopamine, and uric acid. J Appl Electrochem. 2013;43(9):919-926. doi:10.1007/s10800-013-0577-727. Suarez WT, Pessoa-Neto OD, Santos VB dos, et al. A compact miniaturized flow system based on low-temperature co-fired ceramic technology coupled to LED mini-photometer for determination of dipyrone in pharmaceutical formulations. J Braz Chem Soc. 2013;24:847-855. http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-50532013000500018&nrm=iso.28. Krause CE, Otieno BA, Latus A, et al. Rapid Microfluidic Immunoassays of Cancer Biomarker Proteins Using Disposable Inkjet-Printed Gold Nanoparticle Arrays. 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