Mathematical equation correction to spectral and transport interferences in high-resolution continuum source flame atomic absorption spectrometry: determination of lead in phosphoric acid
Vol. 35 No. 1 (2010), Original articles
Vol. 35 No. 1 (2010)

Mathematical equation correction to spectral and transport interferences in high-resolution continuum source flame atomic absorption spectrometry: determination of lead in phosphoric acid

Original articles
https://doi.org/10.26850/1678-4618eqj.v35.1.2010.p19-24
Published 2010-03-29
Jorge Luiz Raposo Junior
Universidade Estadual Paulista, Instituto de Química, Araraquara, Brasil.
https://orcid.org/0000-0001-9716-8472
Silvana Ruella de Oliveira
Universidade Estadual Paulista, Instituto de Química, Araraquara, Brasil.
https://orcid.org/0000-0001-5930-3477
Joaquim Araújo Nóbrega
Universidade Federal de São Carlos, Departamento de Química, São Carlos, Brasil.
José Anchieta Gomes Neto
Universidade Estadual Paulista, Instituto de Química, Araraquara, Brasil.
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Keywords

mathematical equation correction approach
high-resolution continuum source flame atomic spectrometry
lead, phosphoric acid

How to Cite

Raposo Junior, J. L., de Oliveira, S. R., Nóbrega, J. A., & Gomes Neto, J. A. (2010). Mathematical equation correction to spectral and transport interferences in high-resolution continuum source flame atomic absorption spectrometry: determination of lead in phosphoric acid. Eclética Química, 35(1), 19–24. https://doi.org/10.26850/1678-4618eqj.v35.1.2010.p19-24
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Abstract

In this work, a new mathematical equation correction approach for overcoming  spectral and transport interferences was proposed. The proposal was applied to  eliminate spectral interference caused by PO molecules at the 217.0005 nm Pb line, and the transport interference caused by variations in phosphoric acid concentrations. Correction may be necessary at 217.0005 nm to account for  the contribution of PO, since Atotal 217.0005 nm = A Pb 217.0005 nm + A PO 217.0005 nm. This may be easily done by measuring other PO wavelengths (e.g. 217.0458 nm) and calculating the relative contribution of PO absorbance (APO) to the total absorbance (Atotal) at 217.0005 nm: A Pb 217.0005 nm = Atotal 217.0005 nm - A PO 217.0005 nm = Atotal 217.0005 nm - k (A PO 217.0458 nm). The correction factor k is calculated from slopes of calibration curves built up for phosphorous (P) standard solutions measured at 217.0005 and 217.0458 nm, i.e. k = (slope217.0005 nm/slope217.0458 nm). For wavelength integrated absorbance of 3 pixels, sample aspiration rate of 5.0 ml min-1, analytical curves in the 0.1 – 1.0 mg L-1 Pb range with linearity better than 0.9990 were consistently obtained.

https://doi.org/10.26850/1678-4618eqj.v35.1.2010.p19-24
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