Artículos de revistas
Development of an amperometric sensor highly selective for dopamine and analogous compounds determination using bis(2,2 '-bipyridil) copper(II) chloride complex
Registro en:
Electroanalysis. Wiley-v C H Verlag Gmbh, v. 15, n. 9, n. 787, n. 796, 2003.
1040-0397
WOS:000183964600004
Autor
Sotomayor, MDT
Tanaka, AA
Kubota, LT
Institución
Resumen
The use of [Cu(bipy)(2)]Cl-2.6H(2)O as a biomimetic catalyst in the construction of an amperometric sensor for dopamine determination is reported. The sensor was prepared modifying a glassy carbon electrode with a Nation membrane doped with [Cu(bipy)(2)]Cl-2.6H(2)O complex. The sensor presented a higher response in 0.25 mol L-1 phosphate buffer solution (pH 7.0), with an applied potential of -50 mV (vs. SCE). In the optimized operational conditions, a linear response range between 35 and 240 mumol L-1, with a sensitivity of 2.02 +/- 0.07 nA 1 mumoL(-1) cm(-1) and detection limit of 8.0 mumol L-1 were typically observed for the sensor. The response time presented for this sensor was 0.5 s, presenting the same response for at least 40 successive measurements, with good repeatability (3.0%) expressed as relative standard deviation for n=6. The difference of the response between four sensor preparations was 4%. A detailed investigation about the sensor response for other sixteen phenolic compounds and interfering species were carried out. The sensor was applied in the determination of dopamine in pharmaceutical preparation with success. 15 9 787 796