In recent years, nano-structured materials applied to serve as electrochromic device have been widely researched. Among them, 1D nano-structured WO3 have attracted much attention due to the large specific surface area. In this thesis, we introduce the experiment process. First of all, the production of WO3 nanobundles structure is synthesized by hydrothermal method. Next, the electrophoresis deposition method is used to deposit hydrothermally synthesized WO3 production on flexible substrate. By adjusting precursor solution concentration, hydrothermal time, and annealing process in the process, we can find the optimized process condition and apply the WO3 nanobundles structure to the research of flexible electrochromic device. As the experimental results, in the hydrothermal condition of the tungsten ion precursor solution concentration 5mM, hydrothermal time 12h, and hydrothermal temperature 180oC, the synthesized WO3 nanobundles structure have highly porous morphology and crystalline of octahedral. As the above structure applies to the flexible electrochromic device, it shows better transmittance difference (44.1%), the shortest switching response time (9.5 and 22 sec for colored and bleached, respectively), excellent color efficiency (89.8 cm2 C-1), and chemical stability.