Abstract: The nanostructure electrodes were prepared with composite TiO₂-ZnO nanoparticles via the method of homogeneous precipitating by using Ti(SO₄)₂ and Zn(NO₃)₂. The photoelectrochemical performance of the nanostructure electrodes were studied. The experiment results show that the highest IPCE was obtained with the composite TiO₂-ZnO nanoparticles prepared at n[Ti(SO₄)₂]∶n[Zn(NO₃)₂]=3∶1 and calcining temperature 530 ℃. The photoelectrochemical performances of the ITO/TiO₂/RuL₂(SCN)₂∶2TBA and ITO/TiO₂+ ZnO/RuL₂(SCN)₂∶2TBA electrodes were investigated. The highest IPCE was also obtained with the composite TiO₂-ZnO nanoparticles prepared at n[Ti(SO₄)₂]∶n[Zn(NO₃)₂]=3∶1 and calcining temperature 530 ℃. ITO/TiO₂/Poly(3-methythiophene)(PMeT) and ITO/TiO₂+ZnO/PMeT were also studied. The p-n heterojunction existed in ITO/TiO₂/PMeT and ITO/TiO₂+ZnO/PMeT, which favored the separation of electron-hole pairs. The ITO/TiO₂+ZnO/PMeT electrode obviously increased the photo-current conversion efficiency by ten times comparing with that of the ITO/TiO₂/PMeT electrode.

Key words: Photoelectrochemistry, TiO₂+ZnO composite nanostructure electrode, Poly(3-methythiophene)