Composition–activity relationships of carbon electrode-supported bimetallic gold–silver nanoparticles in electrocatalytic oxidation of glucose

Abstract

Composition–activity relationships are important when developing synergistic properties in multimetallic nanoparticles in catalytic reactions. This paper reports findings regarding correlations between catalytic activities and bimetallic compositions of carbon electrode-supported AuAg nanoparticles in the electrocatalytic oxidation of glucose in alkaline solutions. Electrocatalytic activities were characterized using voltammetric and electrolytic techniques, and were also compared with those obtained with gold and silver nanoparticle catalysts under the same conditions. Results from cyclic voltammograms at bimetallic Au m Ag 100 −m ( m: at%) nanoparticle modified-electrodes in H 2SO 4 solutions suggested that synthesized Au 82Ag 18 and Au 73Ag 27 nanoparticles were composed by atomically mixed Ag and Au atoms, and not composed of Ag and Au metal domains, in other words, they were homogeneous. On the other hand, Au 40Ag 60 and Au 17Ag 83 nanoparticles were heterogeneous, composed of Ag and Au metal domains. Homogeneously bimetallic Au m Ag 100 −m nanoparticles showed improvements in electrocatalytic activity for glucose, and heterogeneous bimetallic nanoparticles did not show any improvements. The electrolytic product was strongly dependant on the composition ratio of Ag, regardless of whether nanoparticles were homogeneous or heterogeneous. Au m Ag 100 −m (100 − m = ca. 30) nanoparticles showed synergistic catalytic activities with both characteristic properties of Au nano and Ag nano nanoparticles.