Abstract
With a Ni ion-implanted glassy carbon electrode (GCE) as the working electrode in 0.1 mol/l HAc-NaAc (pH=4.62) solution, a sensitive reductive wave of adriamycin was obtained by linear-sweep voltammetry. The peak potential was -0.55 V (vs. SCE). The peak current was proportional to the concentration of adriamycin over the range of 5.2×10-7 - 1.0×10-5 mol/l and the detection limit was 2.7×10-7 mol/l. The behavior of the reduction wave was studied and the wave was applied to the determination of adriamycin in urine. The reduction process was quasi-reversible. AES and XPS experiments showed that Ni was surely implanted into the surface of the GCE, and the implanted Ni at the GCE improved the electrocatalytic activity.
