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Abstract
A disposable screen-printed electrode based on a graphite and polyurethane resin composite (EIGPU) was developed and evaluated as a voltammetric detector in pharmaceutical analysis. Using cyclic voltammetry, an analytical curve was obtained with the linear dynamic range between 1.00–100 µmol L−1 and a detection limit of 8.18 × 10−7 mol L−1 for acetaminophen (paracetamol) as a probe. During the APAP determination in pharmaceutical formulations, recoveries between 97.2 and 102% were found. There were no interferences from ascorbic acid and other constituents of the pharmaceutical formulation at the 95% confidence level compared to HPLC analysis.
Acknowledgments
The authors are indebted to the Brazilian agencies CNPq and FAPESP for TRS fellowship (2010/05913-6), and financial support (2010/06485-8 and 2010/11080-7) and PROCONTES/USP Program.
Notes
a commercially available screen printed carbon electrode described in the experimental section.
a FIA, flow injection analysis; CPE, carbon paste electrode; GCE, glassy carbon electrode; CV, cyclic voltammetry; DPV, differential pulse voltammetry; SWCNT, multi-walled carbon nanotubes; MWCNT, multi-walled carbon nanotubes.
sd, standard deviation; n = 3.
a result ± standard deviation.
b 3 determinations.
c CV vs. Labeled (CV – Labeled / Labeled) × 100%.
d HPLC vs. CV (HPLC – CV / CV) × 100%.