This study has been separated into five chapters. Chapter 1 is the general introduction. Chapter 2 includes the synthesis of electrochromic materials (ECMs) and fabrication of high contrast electrochromic devices (ECDs). Chapter 3 includes five novel polyethers and their basic electrochromic properties. Chapter 4 includes two novel materials derived from the materials in chapter 2, TPPA and TPB and their basic electrochromic materials. The fabrication, basic characterization, electrochromic properties of a novel ECD was investigated and improved. The ECD combined three different kinds of ECMs, TPPA, TPB and HV. By introducing HV as an efficient charge trapping layer, the working voltage could be greatly reduced and the performance of overall system was also enhanced. The ECD without electrolyte exhibits ultra-high contrast from bleached state with transmittance in visible region up to 76% to colored state with transmittance only 1% both in visible region. High ΔL* (86) and ΔT (75% at visible light region) could be achieved by the colorless ECD. Thus, it could be claimed to be a truly “transparent-to-black” ECD, implying high potential of application as shutter for transparent displays and energy saving devices. In the next part, all the polyether films cast onto an indium-tin oxide (ITO)-coated glass substrate exhibited similar oxidation potential and the film also exhibited multi-color at different oxidation state and good reversibility. In the last part, two novel materials exhibited a lower working potential for the first and second oxidation states while the absorption area in the visible light region is broader the origin materials which may lead to better materials for the full absorption electrochromic device.