ZnO nanorods arrays with Ag nanoparticles on the (002) plane derived by liquid epitaxy growth and electrodeposition process

Abstract

Well-aligned ZnO nanorods (NRs) arrays with Ag nanoparticles (NPs) on the (002) plane are obtained by combining a liquid epitaxy technique with an electrodeposition process. Cyclic voltammetry study is employed to understand the electrochemical behaviors of the electrodeposition system, and potentiostatic method is employed to deposit silver NPs on the ZnO NRs in the electrolyte with an Ag + concentration of 1 mM. X-ray diffraction analysis is used to study the crystalline properties of the as-prepared samples, and energy dispersive X-ray is adopted to confirm the composition at the surface of the deposited samples. Results indicate only a small quantity of silver can be deposited on the surface of the samples. Effect of the deposition potential and time on the morphological properties of the resultant Ag NPs/ZnO NRs are investigated in detail. Scanning electron microscopy images and transmission electron microscopy images indicate that the Ag NPs deposited on the (002) plane of the ZnO NRs with a large dispersion in diameter can be obtained by a single potentiostatic deposition process, while dense Ag NPs with a much smaller diameter dispersion on the top of the ZnO NRs, most of which locate on the conical tip of the ZnO NRs, can be obtained by a two-potentiostatic deposition process, The mechanism of this deposition process is also suggested.