Abstract
Aim: By modifying the Pt electrode with polyvinylpyrrolidone, the distinct oxidation potentials of L and D-serine were markedly increased for both isomers.Methods & results: CV was used for Pt electrode modification with PVP. Twenty cycles was reasonable for Pt modification. K3[Fe(CN)6] CV experiments investigated reversibility of the Fe(III) redox reaction and the enhancement of electron transfer at the PVP-Pt electrode. L and D-serine showing an oxidation peak potential at 0.394 V and 0.468 V, respectively. A linear relationship between the anodic oxidation current extracted from the CVs and the standard concentrations of L-serine and D-serine solutions was obtained with R2=0.99. The dynamic range for D-serine was from 0.5 to 20mM with a LOD of 0.16mM, while for L-serine, was from 2.5 to 20mM with a detection limit of 0.27mM. Using DPV, the dynamic range was 0.05-1.0 µM for D-serine with a detection limit of 0.0103 µM. The standard deviation ranged from 0.212 to 0.38 across ten determinations per concentration.Conclusion: A separation by 74mV between the oxidation peaks of L and D-serine was achieved with remarkable enhancement in oxidation current for both isomers. PVP-Pt electrode can detect D-serine in the presence of DL-serine.
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