ZnO is an II-VI semiconductor. It has a wide band gap of 3.37 eV and a large exciton binding energy of 60 meV. Generally, the growth of ZnO nanostructures requires complicated reaction and expensive equipments. But in this paper, we use a simple solution chemical method to prepare ZnO nanostructures at low temperatures. And our objective is enhance the surface area of ZnO which makes it available in dye-sensitized solar cells application. In this study , the ZnO nanostructure are fabricated by simple solution chemical method. Differently, we paste the metal-island on the substrate instead of ZnO coated seed surfaces. In this novel method, the metal-island play as electron provider, and were further providing the nucleation sites on ITO surface by electrons transmit between the metal-island and conducting substrates. Varies parameters as solution concentration, working temperature, reaction time and surfactants were help us to construction the growth mechanism of ZnO nanostructure ,and we can control the size and morphology of self-assembled ZnO by adjust those parameters. According to our research, the morphologies of ZnO are usually hexagonal rod. The aspect ratio of ZnO Micro-rod is reduced with an increase of the concentration of zinc acetate solution and added surfactants. However, the aspect ratio of ZnO micro-rod is increased with an increase of the reaction temperature and time. Using 100 ppm zinc acetate solution at 90℃ for 15 hours, we can obtain the largest aspect ratio 18 with a 9 μm length ZnO mirco-rod. TEM analysis reveals that the ZnO nanorod grows along the <0001> direction. The best PL light emission properties were achieved by the reaction in 100ppm Zinc acetate solution at 70℃for 6 h. And we have demonstrated that under the specific condition, the special morphology of ZnO products like flower, star, film, nail and hollow-center hexagonal rod were be successfully fabricated.