Distinguishing Localized Surface Plasmon Resonance and Schottky Junction of Au-Cu2O Composites by Their Molecular Spacer Dependence

The surface plasmon resonance (SPR) and Schottky effects are important photocatalytic activity boosters in metallic cocatalyst/photocatalyst systems, but it is difficult Cu2O composite in conjunction with UV and visible-light to differentiate them. In this report, we design a simple method to distinguish the two effects by utilizing a distance-tunable self-assembled monolayer (SAM) in a gold (Au)-sources, by which we had only the SPR or Schottky effect identified in the visible or UV light, respectively. Cysteine (cys) and mercaptoundecanoic acid (MUA) SAMs as linkers were used respectively for making Au-cys-Cu2O and Au-MUA-Cu2O composites. Au-citrate-Cu2O as a mild linker was also synthesized. Under UV-light irradiation, Au-Cu2O showed only the Schottky effect, while Au-MUA-Cu2O and Au-cys-Cu2O showed neither of the two effects. Under visible-light irradiation, Au-MUA-Cu2O and Au-cys-Cu2O showed clearly only the localized SPR (LSPR) effect, while Au-Cu2O demonstrated the coexistence of the two effects, which was further confirmed by their LSPR enhancement factor.