Gold nanoparticle/SWCNT (GNP/SWCNT) composites were synthesized via chemical reduction and electro-plating using HAuCl4 as precursor. The surface characteristics of GNP/SWCNT, such as surface area as well as pore size, crystallinity, elemental composition, and functional groups were examined. From SEM and TEM analysis, it was shown that GNP synthesized via electroplating were about 2－5 nm and evenly distributed on the surface of SWCNT. Besides, it was found that when GNP were about 2－5 nm, the oxidation peak of As(III) was the sharpest and the peak current was about 3.8 times larger than the GCE electrode coated with GNP only. The linear scanning voltammetry of As(III) at different concentrations showed that the peak current has good relationship to the concentration of As(III) in the range of 50－5000 μg/L. At last, the interference of copper and the memory effects were also investigated. It was found that when analyzing As(III) via LSV, the was not obvious interference of copper and the memory effects.