4.4 Article

Simple Voltammetric Determination of Iron in Ethanol and Biodiesel Using a Bismuth Film Coated Glassy Carbon Electrode

期刊

ANALYTICAL LETTERS
卷 55, 期 15, 页码 2325-2346

出版社

TAYLOR & FRANCIS INC
DOI: 10.1080/00032719.2022.2053701

关键词

Fe (III)-1-(2-piridylazo)-2-naphthol; tetramethylammonium hydroxide; bismuth-film electrode; square-wave adsorptive stripping voltammetry; ethanol; biodiesel

资金

  1. CAPES-PROCAD AM [SCBA: 88887.200615/2018-00]
  2. CNPq [310664/2017-9]
  3. FAPEMA [UNIVERSAL-01136/17]
  4. ANP (Research Project PMQC/QUALIPETRO) [1.028/2021]
  5. ANP (CONSEPE-UFMA) [2.460/22]

向作者/读者索取更多资源

The study utilized SWAdSV to quantitate iron in ethanol and biodiesel using BiFE electrode to promote reduction of PAN-complexed Fe (III). Ni (II) was identified as a significant interference, with Cu (II), Al (III), Mn (II), Cr (III), Cd (II), Zn (II), and Pb (II) showing no significant interference under experimental conditions.
Square-wave adsorptive stripping voltammetry (SWAdSV) was used to determine iron in ethanol and biodiesel using a bismuth-film electrode (BiFE) prepared onto the surface of a glassy carbon electrode (GCE) by electrochemical deposition to promote the reduction of Fe (III) previously complexed with 1-(2-pyridylazo)-2-naphthol (PAN) directly in the electrochemical cell. The supporting electrolyte was composed by mixture of acetate buffer (0.1 mol L-1, pH 4.5) and ethanol (40/60% v/v) into which 500 mu L of a 0.1 mmol L-1 stock solution of PAN was added as complexing agent. The Fe (III)-PAN complex presented a well-defined current peak at -0.7 V. For biodiesel, a treatment with tetramethylammonium hydroxide (TMAH) was proposed as an efficient mean to minimized matrix interferences. A limit of detection of 6.0 x 10(-8) mol L-1 (0.06 mu mol L-1) and limit of quantification of 2.0 x 10(-7) mol L-1 (0.2 mu mol L-1) were obtained for Fe(III). Under the optimized conditions, there were no significant interferences from Cu(II), Al(III), Mn(II), Cr(III), Cd(II), Zn(II) and Ni(II) and Pb(II) while Ni(II) interfered significantly. The analytical curves produced linear responses with equations I (mu A) = (-1.315 x 10(-7) +/- 5.158 x 10(-8)) + (-0.238 +/- 0.01) [Fe (III)] (mu mol L-1), R-2 = 0.992 and I (mu A) = (-6.836 x 10(-7) +/- 1.124 x 10(-8)) + (-0.408 +/- 0.013) [Fe (III)] (mu mol L-1), R-2=0.998 for pure ethanol and biodiesel, respectively. The method produced satisfactory results in quantifying original quantities of Fe(III) in fuel ethanol (5.65 +/- 0.71 mu mol L-1) and biodiesel (1.28 +/- 0.25 mu mol L-1) at a 95% confidence limit (n = 3).

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