The traditional fabrication of white light LEDs involves mixing glue and phosphor powder. This method can't control glue-phosphor layer thickness due to precipitation after thorough mixing of glue-phosphor products. So, the color temperature can't be dispersed evenly and centrally. Meanwhile, those products also can cause a yellow ring halo, because the phosphor powder contacts the chip directly. So, glue-phosphor products can cause a lot of heat, bad heat dispersion and low energy efficiency. Therefore, traditional fabrication of white light LEDs can raise the cost of LEDs. In this study, utilizing a vacuum mould membrane technology, phosphor powders can be dispersed homogenously, with good water and gas barrier properties in high photo transmission materials. Also, vacuum mould phosphor membranes can reach an even dispersion, good color temperature and uniform thickness. The silicon resin has high temperature endurance, flexibility and good mechanical properties. So, the phosphor membrane can improve the life-span of the exit light efficiency. Therefore, vacuum mould phosphor membranes were checked for those photo-electric, barrier, thermal and mechanical properties in this research.