2000 – 2006

  1. Fernandes, J.C.B.; Rover, L.; Oliveira Neto, G. de and Kubota, L.T.; “Potentiometric determination of L-ascorbic acid in pharmaceutical samples by FIA using a modified tubular electrode”, Journal Brazilian Chemical Society, 11, 2, 2000, 182.
  2. Fernandes, J.C.B.; Rohwedder, J.J.R.; Oliveira neto, G. de and Kubota, L.T.; “Simultaneous Determination of Chloride and Potassium in Carbohydrate Electrolyte Beverages Using Array of Ion-Selective Electrodes Controlled by Microcomputer”, Journal Brazilian Chemical Society, 11(4) 2000, 349.
  3. Carvalho, R.M.; Mello, C. and Kubota, L.T.; Simultaneous determination of phenol isomers in binary mixtures by DPV using carbon fiber electrode and neural network with pruning as a multivariate calibration tool”, Anal. Chim. Acta, 420, 2000, 109.
  4. Ferreira, C.U.; Gushikem, Y. and Kubota, L.T.; “Electrochemical Properties of Meldola’s Blue Immobilized on Silica-Titania-Phosphate Prepared by Sol-Gel Method”, Journal Solid State Electrochemistry, 4(5), 2000, 298-303.
  5. Rover, L.; Fernandes, J.C.B.; Oliveira Neto, G. de and Kubota, L.T.; “Development of a New FIA-potentiometric sensor for dopamine based on EVA-Copper (II) ions”, Journal Electroanalytical Chemistry, 481, 2000, 34.
  6. Rover Jr, L.; Kubota, L.T. and Oliveira Neto, G. de, “Determination of Salicylate in Blood Serum Using an Amperometric Biosensor with Salicylate Hydroxylase immobilized in a polipyrrole matrix”, Talanta, 51, 2000, 547.
  7. Gil, E.S. and Kubota, L.T.; Electrochemical behavior of rhodium acetamidate immobilized in carbon paste via polyethylenimine (PEI): A hydrazine sensor, Journal Braz. Chem. Soc., 11, 3, 2000, 304-310.
  8. Sena, M.; Fernandes, J.C.B.; Rover, L.; Poppi, R.J.; Kubota, L.T.; “ Application of two and three-way chemometric methods in the study of acetylsalicylic acid and ascorbic acid mixtures using UV-spectrophotometry”, Anal. Chim. Acta, 409, 2000, 159-170.
  9. Gil, E.S. and Kubota, L.T.; “Electrochemical properties of Doyle catalyst immobilized on carbon paste in presence of DNA”, Bioelectrochem. Bioenerg., 51, 2, 2000, 145-149.
  10. Carvalho, R.M.; Oliveira Neto, G. de & Kubota, L.T.; “Microbiosensor for salicylate based on modified carbon fibre”, Analytical Letters, 33, 3, 2000, 425.
  11. Sanches, R.F.; Duran, N.; Zamora, P.P.; Pelegrini, R. & Kubota, L.T.; Novas tendências para o tratamento de resíduos industriais contendo espécies organocloradas, Quim. Nova, 23(4), 2000, 504.
  12. Nakagaki, S.; Xavier, C.R.; Wosniak, A.J.; Mangrich, A.S.; Wypych, F.; Cantão, M.P.; Denicolo, I. and Kubota, L.T.; “Synthesis and characterization of zeolite-encapsulated metalloporphyrins”, Colloids Surfaces, 168 (3), 2000, 261.
  13. Malinauskas, A.; Kubota LT; Rusgaz, T. and Gorton, L.  A Reagentless Amperometric Carbon Paste-based Sensor for NADH. Electroanalysis, 12 , 2000, 194 –198.
  14. Schiavo, D.A.; Perez, E.F. & Kubota, L.T.; “Comportamento do azul de metileno adsorvido na silica modificada com óxido de nióbio”, Quim. Nova, 23(6), 2000, 832.
  15. Mello, C.; Cerqueira, E.; Poppi, R.J.; Kubota, L.T.; “Utilização de Filtros com Transformada de Fourier no processamento de sinais analíticos”, Quim. Nova, 23(5), 2000, 690.
  16. Kubota, L. T.; Munteanu, F.; Roddick-Lanzilotta, A.; McQuillan, A. J.; Gorton, L..; Electrochemical investigation of some aromatic redox mediators immobilised on titanium phosphate.  Quim. Anal.  (2000),19(Supl. 1),  15-27.
  17. Nagata, N.; Peralta-Zamora, P.G.; Bueno, M.I.S. and Kubota L.T.; “Pre-concentration Properties of Modified silica Gel for Metal Analysis in Water by Energy Dispersive X-Ray Fluorescence”, Anal. Letters, 33(10), 2000, 2005.
  18. Rosatto, S.S.; Sanches, R.F.; Duran, N. & Kubota, L.T.; Biossensores Amperométricos para determinação de Compostos Fenólicos em amostras de interesse ambiental”, Quim. Nova, 24(1), 2001, 77-86.
  19. Carvalho, R.M.; Oliveira Neto, G. de & Kubota, L.T.; “Effect of different carbon fibres on salicylate biosensor response”, Electroanalysis, 13(2), 2001, 131-136.
  20. Rover, L. Höehr, N.F., Vellasco, A.P. and Kubota, L.T.; “Sistema antioxidante envolvendo o ciclo metabólico da glutationa associados a métodos eletroanalíticos na avaliação do estresse oxidativo”, Química Nova, 24(1) 2001, 112-119.
  21. Fernandes, J.C.B.; Oliveira Neto, G. de and Kubota, L.T.; “Eletrodos Íon-seletivo: histórico, mecanismo de resposta, seletividade e revisão de conceitos”, Química Nova, 24(1) 2001, 120-130.
  22. Torres, K.C.; Fernandes, J.C.B.; Garcia, C.A.B.; Oliveira Neto, G. de and Kubota, L.T.; “Use of self-plasticizing EVA membrane for potentiometric anion detection”, Talanta, 53(4), 2001, 807-814.
  23. Perez, E.F.; Oliveira Neto, G. de and Kubota L.T.; “Bi-enzymatic Amperometric biosensor for oxalate”, Sensor and Actuator, 72, 2001, 80-85.
  24. Pereira, A. C.; Fertonani, F.L.; Oliveira neto, G. de; Yamanaka, Y. and Kubota, L.T.; “Reagentless biosensor for isocitrate using one step modified Pt-Ir microelectrode”; Talanta, 53 (4), 2001, 801-806.
  25. Rosatto, S.S.; Oliveira Neto, G. de and Kubota, L.T.; “Effect of DNA on the peroxidase based biosensor for phenol determination in waste waters”, Electroanalysis, 13(6), 2001, 445- 450.
  26. Pessoa, C.A.; Gushikem, Y. and Kubota, L.T.; “Ferrocenecarboxylic acid adsorbed on Nb2O5 film grafted on SiO2 surface: The NADH oxidation study”; Electrochim. Acta, 46, 16, 2001, 2499-2506.
  27. Freire, R.S., Duran, N. and Kubota L.T.; “Effects of Fungal Laccase Immobilization Procedures for the Development of a Biosensor for Phenol”, Talanta, 54, 4, 2001, 681-686.
  28. Munteanu, F.D.; Kubota, L.T. and Gorton, L.; “Catalytic Electrooxidation of NADH using different 2-electrons mediators immobilized on zirconium phosphate”; Journal Electroanal. Chemistry, 509, 1, 2001, 2-10.
  29. Rover, L. Höehr, N.F. and Kubota, L.T.; Development of an amperometric biosensor for glutathione determination in blood serum,” Clin. Chim. Acta, 318, 1-2, 2001, 55-67.
  30. Marzal, P.C.; Rosatto, S.S.; Aoyama, H. and Kubota, L.T.; “Electroanalytical determination of the acid phosphatase activity monitoring p-nitrophenol, Anal. Chim. Acta, 441(2), 2001, 207.
  31. Oliveira Neto, G. de; Cadore, S. and Kubota, L.T.; “Analytical Chemistry in Brazil”, Anal. Letters, 34(4) 2001, 471-490.
  32. Sotomayor, M.D.P.T.; Facchin, I. And Kubota, L.T.; “Influence of the gamma irradiation in the behavior of a reagentless amperometric biosensor for hydrogen peroxide constructed using natural source of peroxidase”, Analyst, 126 (6), 2001, 739-742.
  33. Sotomayor, M.D.P.T.; Raimundo Junior, I.M.; Oliveira Neto, G. de and Kubota, L.T.; “Bi-enzymatic optode detection system for oxalate determination based on a natural source of enzyme”, Anal. Chim. Acta, 447(1-2) 2001, 33-40.
  34. Freire, R.S.; Duran, N. and Kubota, L.T.; Remediation and Toxicity Removal from Kraft E1 Paper Mill Effluent by Ozonization”, Environmental Technology, 22(8), (2001), 897-904.
  35. Santos, A.S.; Gorton, L. and Kubota, L.T.; “Electrocatalytic NADH oxidation using an electrode based on Meldola Blue Immobilized on Silica Coated with Niobium Oxide”, Electroanalysis, 2002, 14, 12, 805-812.
  36. Gil, E.S.; Najjar, R.; Serrano, S.H.P.; Ferreira, E.I.; Negron, A.C.V. and Kubota, L.T.; “Electrochemical Evaluation of Rhodium Dimer-DNA Interactions”, Journal Pharm Biomed. Analysis, 2002, 29, 579-584.
  37. Santos, A.S.; Gorton, L. and Kubota, L.T.; “Electrode based on Nile Blue adsorbed onto silica gel modified with niobium oxide for electrocatalytic oxidation of NADH”, Electrochim. Acta, 2002, 47, 3351-3360.
  38. Sotomayor, M.P.T.; Tanaka, A.A. and Kubota, L.T.; “Enzymeless biosensor for phenol compound determination”, Anal. Acta, 455, 2002, 215-223.
  39. Sotomayor, M.P.T. and Kubota, L.T.; “Enzymeless Biosensors: Uma nova area a ser explorada”, Quim. Nova, 25, 1, 2002, 123-128.
  40. Freire, R.S.; Duran, N.; Wang, J. and Kubota, L.T.; “Laccase based screen printed electrode for amperometric detection of phenolic compounds”, Anal. Letters, 35(1) 2002, 29-38.
  41. Freire, R.S.; Thongngamdee, S.; Duran, N.; Wang, J. and Kubota, L.T.; Laccase- and Tyrosinase-Based remote electrochemical biosensor for phenol compounds monitoring, Analyst, 127, 2, 2002, 258-261.
  42. Mello, L.D. and Kubota, L.T.; Application of biosensors as analytical tool in the drinks and food industries – A review; Food Chemistry, 77, 2002, 237-256.
  43. Freire, R.S.; Duran, N. and Kubota, L.T.; Development of a laccase-based flow injection electrochemical biosensor for phenolic compounds determination and its application for monitoring remediation of Kraft E1 paper mill effluent; Anal. Chim. Acta, 463:2, 2002, 229-238.
  44. Torres, K.Y.C.; Hoer, N.F.; Kubota, L.T.; “Development of a tubular potentiometric sensor for calcium applied in the blood serum samples”, Lecta, 20, 1, 2002, 37-45.
  45. Alfaya, AAS.; Kubota, L.T.; “A utilização de materiais obtidos pelo processo de sol-gel na construção de biossensores, Quim. Nova, 2002, 25, 5, 835-841.
  46. Rosatto, S.S.; Sotomayor, M.D.P.T.; Gushikem, Y. and Kubota, L.T.; SiO2/Nb2O5 as a support for HRP immobilization in biosensor preparation for phenol detection; Electrochim. Acta.; 2002, 47, 4451-4458.
  47. Freire, R.S.; Duran, N. and Kubota, L.T.; Electrochemical biosensor-based device for continuous phenols monitoring in environmental matrices; Journal Braz. Chem. Soc. 2002, 13, 4, 456-462.
  48. Sotomayor, M.P.T.; Tanaka, A.A. and Kubota, L.T.; Development of an amperometric enzymeless biosensor for phenol compounds using a nafion membrane doped with copper dipyridyl complex; Journal Electroanalytical Chemistry, 536, 2002, 71-81.
  49. Santos, A. S.; Pereira, A.C. and Kubota, L.T.; Electrochemical and electrocatalytic studies of the toluidine blue immobilized on silica gel coated with niobium oxide; Journal of the Brazilian Chemical Society, 2002, 13, 4, 495-501.
  50. Alves AA, Kubota LT, Macedo DV.; Biossensor for measurement of glutathione reductase activity in erithrocyte haemolisate, Free Radical Biology and Medicine, 33: 666 Suppl. 1, 2002 .
  51. Yamashita, M.; Rosatto, S.S. and Kubota, L.T.; Electrochemical comparative study of riboflavin, FMN and FAD immobilized on the silica gel modified with zirconium oxide; Journal of the Brazilian Chemical Society, 13, 5, 2002, 635-641.
  52. Freire, R.S. and Kubota, L.T.; Electrochemical behavior of the bis(2,2´-bipyridyl)copper(II) complex immobilized on self-assembled monolayer modified electrode for L-ascorbic acid detection, Analyst, 127, 11, 2002, 1502-1506.
  53. DeLuca, A.R.; Santos, A.S.; Pereira, A.C. and Kubota, L.T.; Electrochemical behavior and electrocatalytic study of methylene green coated on modified silica gel, Journal Colloid Interf. Science, 254, 2002, 113-119.
  54. Santos, A.S.; Pereira, A.C. and Kubota, L.T.; Tendências em modificação de eletrodos amperométricos para aplicações eletroanalíticas, Quim. Nova, 25, 6, 2002, 1012-1021.
  55. Carvalho, R.M.; Rath, S. and Kubota, L.T.; SPR – Uma nova ferramenta para biossensores; Quim. Nova, 26, 1, 2003, 97-104.
  56. Freire, R.S.; Pessoa, C.A. and Kubota, L.T.; Emprego de monocamadas auto-organizadas no desenvolvimento de sensores eletroquímicos, Quim. Nova, 26(3), 2003, 381-389.
  57. Damos, F.S.; Sotomayor, M.D.P.T.; Kubota, L.T.; Tanaka, S.M.C.N. and Tanaka, A.A.; Iron (III) tetra(N-methyl-4-pyridyl)-porphyrin as a biomimetic catalyst of horseradish peroxidase on the electrode surface: An amperometric enzymeless biosensor for phenols determination, Analyst, 128, 2003, 255-259.
  58. Santos, A.S.; Freire, R.S. and Kubota, L.T.; Highly stable amperometric biosensor for ethanol based on Meldola´s blue adsorbed on silica gel modified with niobium oxide, J. Electroanal. Chem., 547(2), 2003, 135-142.
  59. Sotomayor, M.D.P.T.; Tanaka, A.A.; Kubota, L.T.; ‘Tris (2,2´-Bipyridil) Copper(II) Chloride Complex: A Biomimetic Tyrosinase Catalyst in amperometric sensor construction, Electrochim. Acta, 48, 2003, 855-865.
  60. Freire, R.S.; Pessoa, C.A.; Martins, L.D.M.; Kubota, L.T.; Direct electron transfer for amperometric biossensor development, J. Braz. Chem. Soc., 14(2), 2003, 230-243.
  61. Sotomayor, M.P.T.; Tanaka, A.A. and Kubota, L.T.; Development of an enzymeless biosensor highly selective for dopamine and analogous compounds determination using bis(2,2’-dipyridil)copper (II) chloride complex; Electroanalysis, 15, 9, 2003, 787-796.
  62. Ribeiro, E.S.; Rosatto, S.S.; Gushikem, Y. and Kubota, L.T.; Electrochemical study of Meldola´s blue, methylene blue and toluidine blue immobilized on the binary oxide SiO2/Sb2O3; Journal Solid State Electrochemistry, 7, 10, 2003, 665-670.
  63. Yamashita, M.; Pessoa, C.A.; Kubota, L.T.; Electrochemical Behavior of pyrroloquinoline quinone immobilized on silica gel modified with zirconium oxide, J. Colloid Interf. Science, 263, 2003, 99-105.
  64. Carvalho, R.M.; Rath, S. and Kubota, L.T.; Influence of EDTA on the Electrochemical Behavior of Phenols, Journal Electroanal. 548, 2003, 19-26.
  65. Freire, R.S.; Duran, N., Ferreira, M.M.C. and Kubota, L.T.; Dual amperometric biosensor device for analysis of binary mixtures of phenols by multivariate calibration using partial least squares, Chim. Acta, 285, 2, 2003, 263-269.
  66. Winter, E.; Carvalho, R.M.; Rath, S. and Kubota, L.T.; Effect of carboxylate compounds on the electrochemical behavior of dopamine at a mercury electrode, Journal Brazilian Chemical Society, 14 (4), 2003, 564-569.
  67. Pereira, A.C.; Santos, A.S.; Kubota, L.T.; Electrochemical behavior of Riboflavin immobilized on different matrices, Journal Colloid Interface Science, 265, (2), 2003, 351-358.
  68. Mello, L.D.; Sotomayor, M.D.P.T. and Kubota, L.T.; HRP-Based Amperometric Biosensor for Polyphenols Determination in Vegetables Extract, Sensor and Actuators, 96(3), 2003, 636-645.
  69. Sotomayor, M.D.P.T.; Dias, I.L.T.; Oliveira Neto, G. and Kubota, L.T.; Application of (2,2’:6’,2”-Terpyridil)Copper (II) Chloride Complex in the Sensor Construction for Benzoyl Peroxide Determination in Pharmaceutical Samples, Anal. Acta, 494 (1,2) 2003, 199-205.
  70. Pereira, A.C.; Santos, A.S.; Kubota, L.T.; o-Phenylenediamine Adsorbed onto Silica Gel Modified with Niobium Oxide for Electrocatalytic NADH Oxidation, Acta, 48, 23, 2003, 3541-3550.
  71. Alves, A., Macedo, D.V., Kubota, L.T.; Amperometric sensor for the glutathione reductase activity determination in erythrocyte hemolisate, Analytical Biochemistry, 323(1), 2003, 33-38.
  72. Matoso, E., Kubota, L.T., Cadore, S.; Use of silica gel chemically modified with zirconium phosphate for preconcentration and determination of lead and copper by flame atomic absorption spectrometry, Talanta, 60(6), 2003, 1105-1111.
  73. Ribeiro, E.; Dias, S.L.P.; Gushikem, Y. and Kubota, L.T.; Cobalt (II) Porphyrin complex Immobilized on the Binary Oxide SiO2/Sb2O3: Electrochemical Properties and Dissolved Oxygen Reduction Studies, Electrochim. Acta, 49, 5, 2004, 829-834.
  74. Dias, I.L.T.; Oliveira Neto, G. de; Vendramini, D.C.; Sommer, C.; Martins J.L.S.; Kubota, L.T.; A poly(vinyl chloride) membrane electrode for the determination of the diuretic furosemide, Anal. Letters, 37 (1): 35-46, 2004.
  75. Freire, R.S. and Kubota, L.T.; Application of Self-Assembled Monolayer-based Electrode for Voltammetric determination of Copper at ppq-Level, Electrochim. Acta, 49, 2004, 3795-3800.
  76. Marzal, P.C.; Hoerh, N.F.; Oliveira Neto, G. de and Kubota, L.T.; ‘Determination of reduced glutathione using an amperometric carbon paste electrode chemically modified with TTF – TCNQ, Sensors and Actuators, 100, 2004, 333-340.
  77. Moreira, A.B.; Dias, IT, Oliveira Neto, G.; Zagatto, E.A.G.; Kubota, L.T.; Solid-Phase Fluorescence Spectroscopy for the Determination of Acetylsalicylic Acid in Powdered Pharmaceutical Tablets, Analytica Chimica Acta, 523(1) 2004, 49-52.
  78. Luz, R.C.; Damos, F.S.; Oliveira, A.B., Beck, J.; Kubota, L.T Voltammetric determination of 4-nitrophenol at a lithium tetracyanoethylenide (LiTCNE) modified glassy carbon electrode, Talanta, 2004, 64(4), 935-942.
  79. Mendes, R.K.; Freire, R.S.; Neves, S.; Fonseca, C.M.P., Kubota, L.T.; Characterization of Self-Assembled Thiols Monolayers on Gold Surface by Electrochemical Impedance Spectroscopy, Journal of the Brazilian Chemical Society, 2004, 15(6), 849-855.
  80. Pereira, A.C.; Kubota, L.T.; Otimização da preparação de eletrodo de pasta de carbono contendo riboflavina em suporte inorgânico, Química Nova, 27(5), 725-729, 2004.
  81. Damos, F.S.; Mendes, R.K.; Kubota, L.T.; Aplicações De QCM, EIS E SPR na Investigação de Superfícies e Interfaces para o Desenvolvimento de (Bio)Sensores, Química Nova, 2004, 27(6), 970-979.
  82. Gandra, P.; Macedo D.V. and Kubota L.T. “Determinação eletroquímica da capacidade anti-oxidante em fluidos biológicos”, Quim. Nova, 2004, 27(6), 980-985.
  83. Teofilo, R.; Reis, E.L.; Reis, C.; Silva, G.A. ; Experimental Design Employed to Square Wave Voltammetry Response Optimization for the Glyphosate Determination, Braz.Chem. Soc., 2004, 15(6), 865-871.
  84. Carvalho, R.M.; Freire, R.S.; Rath, S. and Kubota, L.T.; Effects of EDTA ON Signal Stability During Electrochemical Detection of Acetaminophen, Journal Pharmaceutical and Biomedical Analysis, 34, 5, 2004, 871-878.
  85. Castilho, T.J.; Sotomayor, M.D.P.T. and Kubota, L.T.; Amperometric biosensor based on HRP for biogenic amine determinations in biological samples, Journal Pharmaceutical and Biomedical Analysis, 37(4), 2005, 785-791.
  86. Luz, R.C.; Damos, F.S.; Oliveira, A.B., Beck, J.; Kubota, L.T.; “Development of a sensor based on tetracyanoethylenide (LiTCNE)/Poly-l-lysine for dopamine determination”, Electrochim Acta, 50 (13), 2005, 2675-2683.
  87. Mello, L.D.; Alves, A.A.; Macedo, D.V. and Kubota, L.T.; Peroxidase-based biosensor as a tool for a fast evaluation of antioxidant capacity of tea, Food Chem, 92(3), 2005, 515-519.
  88. Damos, F.S.; Luz, R.C.; Kubota, L.T.; “Determination of Thickness, dielectric constant of thiol films and kinetic of adsorption using surface plasmon resonance” Langmuir, 21, 2005, 602-609.
  89. Carvalhal, R.F.; Freire, R.S.; Kubota, L.T.; “Polycrystaline Gold Electrodes: A Comparative Study of Pretreatment Procedures Used For Cleaning and Thiol Self-Assembly Monolayer Formation”, Electroanalysis, 2005, 17(14), 1251-1259.
  90. Santos, A.S.; Duran, N.; Kubota, L.T.; “Biosensor for H2O2 response based on Horseradish Peroxidase: Effect of different mediators adsorbed on silica gel modified with niobium oxide”, Electroanalysis, 2005, 17(12), 1103-1111.
  91. Moreira A.B.; Oliveira, H.P.M.; Atvars, T. D.Z.; Dias, I. L.T.; Oliveira Neto, G.; Zagatto E.A.G., Kubota, L.T.; Direct determination of paracetamol in powdered pharmaceutical samples by fluorescence spectroscopy, Analytica Chimica Acta, 2005, 539, 257-261.
  92. Moreira A.B.; Castro, M.M.F.; Dias, I. L.T.; Oliveira Neto, G.; Zagatto E.A.G., Kubota, L.T.; Solid-Phase Spectrofluorimetric Determination Of Acetylsalicylic Acid And Caffeine In Pharmaceutical Preparations Using Partial Least-Squares Multivariate Calibration, Talanta, 2005, 67, 65-69.
  93. Reis, A.P., Tarley, C.R.; Kubota, L.T.; ‘Exploiting micellar environment for simultaneous electrochemical determination of ascorbic acid and dopamine’, Talanta, 2005, 67(4), 829-835.
  94. Tarley, C.R.; Kubota, L.T.; “Moleculary imprinted solid phase extraction of catechol from aqueous effluent for its selective determination by differential pulse voltammetry”, Analytica Chimica Acta, 2005, 548, (1-2), 11-19.
  95. Damos, F.S.; Luz, R.C.; Kubota, L.T.; “Study of poly(methylene blue) ultrathin films and its properties by electrochemical surface plasmon resonance”, Journal Electroanalytical Chemistry, 581, 2005, 231-240.
  96. Tarley, C.R.; Sotomayor, M.D.P.T.; Kubota, L.T.; “Polímeros Biomiméticos em Química Analítica. Parte 1: Preparo e aplicações de MIP (Moleculary Imprinted Polymer) em técnicas de extração e separação”, Química Nova, 28(6), 2005, 1076-1086.
  97. Tarley, C.R.; Sotomayor, M.D.P.T.; Kubota, L.T.; “Polímeros Biomiméticos em Química Analítica. Parte 2: Aplicações de MIP (Moleculary Imprinted Polymer) no desenvolvimento de sensores químicos”, Química Nova, 28(6), 2005, 1087-1101.
  98. Chumbimuni-Torres, K.Y. and Kubota, L.T.; Simultâneous determination of calcium and potassium in coconut water by a flow-injection method with tubular potentiometric sensors, Journal of Food Composition and Analysis, 19, 2006, 225-230.
  99. Melo, L.D.; Marazza, G.; Fernandez, S.; Mascini, M.; Kubota, L.T.; “Investigations of the antioxidant properties of plant extract uisng a DNA-electrochemical biosensor, Biosensor & Bioelectronics, 21(7), 2006, 1374-1382.
  100. Damos, F.S.; Luz, R.C.; Kubota, L.T.; Investigations of ultrathin polypyrrole films: formation and effects of doping / dedoping processes on its optical properties by Electrochemical Surface Plasmon Resonance (ESPR), Electrochimica Acta, 51(7), 2006, 1304-1312.
  101. Luz, R.C.; Damos, F.S.; Tanaka, A.A.; Kubota, L.T.; “Dissolved oxygen sensor based on cobalt tetrasulphonated phthalocyanine immobilized in poly-l-lysine film onto glassy carbon electrode”, Sensor and Actuator, 114, 2006, 1019-1027.
  102. Costa, C.O., Miranda, P.R.B.; Hazra, B.; Sarma, M.; Luz, R.C.S.; Goulart, M.O.F., Kubota, L.T.; “Development of a voltammetric sensor for diospyrin determination in nanomolar concentrations”, Talanta, 68(4), 2006, 1378-1383.
  103. Tarley, C.R.; Segatelli, M.V.; Kubota, L.T.; “Amperometric Determination of Chloroguaiacol at Submicromolar levels after On-line Preconcentration with Molecularly Imprinted Polymers”, Talanta, 69(1), 2006, 259-266.
  104. Scotti, R.; Lima, E.C.; Benvenutti, E.V.; Piatiniki, C.M.S.; Dias, S.L.P.; Gushikem, Y.; Kubota, L.T.; Azul de metileno imobilizado na celulose/TiO2 e SiO2/TiO2: propriedades eletroquímicas e planejamento fatorial, Quim. Nova, 29(2), 2006, 208-212.
  105. Chumbimuni-Torres, K.Y.; Rubinova, N.; Radu, A.; Bakker, E. and Kubota, L.T.; Solid contact potentiometric sensors for trace level measurements”, Analytical Chemistry, 78(4), 2006, 1318-1322.
  106. Moreira A.B.; Dias, I. L.T.; Oliveira Neto, G.; Zagatto E.A.G., Kubota, L.T.; Simultaneous Spectrofluorimetric Determination of Paracetamol and Caffeine in Pharmaceutical Preparations in Solid-Phase Using Partial Least-Squares Multivariate Calibration, Analytical Letters, 39(2), 2006, 349-360.
  107. Damos, F.S.; Luz, R.C.; Tanaka, A.A.; Kubota, L.T.; Investigations of Nanometric Films of Doped Polyaniline by Using Electrochemical Surface Plasmon Resonance and Electrochemical Quartz Crystal Microbalance, Journal Electroanalytical Chemistry, 589(1), 2006, 70-81.
  108. Ribeiro, E.S.; Kubota, L.T.; Immobilization of Hexacyanoferrate on a Gold Self-Assembled Monolayer, and its Application as a Sensor for Ascorbic Acid, Microchimica Acta, 154, 2006, 303-308.
  109. Pereira, A.C.; Macedo, D.; Santos, A.S.; Kubota, L.T.; Amperometric biosensor for lactate base don Meldola´s blue adsorbed on sílica gel modified with niobium oxide, Electroanalysis, 18(12), 2006, 1208-1214.
  110. Chumbimuni-Torres, K.Y.; Marzal, P.C. and Kubota, L.T.; “Recentes avanços e novas perspectivas dos eletrodos íon-seletivos”, Química Nova, 29(5), 2006, 1094-1100.
  111. Luz, R.C.; Damos, F.S.; Oliveira, A.B., Beck, J.; Kubota, L.T.;Development of a voltammetric sensor for catechol in nanomolar levels using a modified electrode with Cu(phen)2(TCNQ)2 and PLL, Sensor & Actuators B: Chemical,117, 2006, 274-281.
  112. Santos, W.; Luz, R.C.; Damos, F.S.; Tanaka, S.M.C.N.; Tanaka, A.A.; Kubota, L.T.; Amperometric sensor for nitrite using a glassy carbon electrode modified with alternating layers of Iron(III) tetra-(N-methyl-4-pyridyl)-porphyrin and cobalt (II) tetrasulfonated phthalocyanine, Talanta, 70, 2006, 588-594.
  113. Marzal, P.C.; Chumbimuni-Torres, K.Y.; Hoer, N.F. and Kubota, L.T.; Determination of glutathione in hemolysed erythrocyte using amperometric sensor based on TTF-TCNQ, Clin. Acta, 371, 2006, 152-158.
  114. 176- Luz, R.C.; Damos, F.S.; Tanaka, A.A.; Kubota, L.T.; Cobalt tetrasulphonated phthalocyanine immobilized on poly-l-lysine film onto glassy carbon electrode as amperometric sensor for cysteine, Journal Pharmaceutical and Biomedical Analysis, 42(2), 2006, 184-191.
  115. Possari, R.; Carvalhal, R.F.; Mendes, R.K.; Kubota, L.T.; Electrochemical detection of cysteine in a flow system based on reductive desorption of thiols from gold, Analytica Chimica Acta, 575, 2006, 172-179.
  116. Santos, A.S.; Pereira, A.C.; Duran, N.; Kubota, L.T.; Amperometric biosensor for ethanol based on co-immobilization of alcohol dehydrogenase and Meldola´s blue on multi wall carbon nanotube, Electrochimica Acta, 52, 2006, 215-220.
  117. Nunes LAS, Gandra PG, Alves AA, Kubota LT, Vaz de Macedo D., Adequacies of skin puncture for evaluating biochemical and hematological blood parameters in athletes, Clinical Journal Of Sport Medicine 16 (5): 418-421, 2006.