In the light-emitting diodes (LEDs) on the research and development, with the development of technology and process improvements, LED applications are no longer only applies to intensity directivity of light source, but rather toward the development of lighting applications, they will be the main components of human lighting applications in the future development. When the trend of the increasing popularity of LED applications, which also represents the efficiency of LED has been increased gradually. With lighting in the LED market, most are used in high-power LED applications, high-power LED current efficiency of about 60 ~ 70lm / W, The efficient reason of LED improvement, mainly from the chip, packaging, materials, process capability enhancement, and the present high-power LED chips used in the types of chips can be divided into vertical dies and horizontal dies, and the manufacturing process these two ways differ due to different chips. This thesis will be high-power LED as the main focus of the analysis, and targeted at the two different structures of the chip – the analysis of vertical dies and horizontal dies on thermal resistance and optical efficiency, and then by the colloidal silver of different materials and printed circuit board (PCB) material to do a comparative analysis, it is thought that this analysis will allow us to understand the demonstrated results from the collocation of different chips with different colloidal silver and the PCB , and thus get the best of high-power LED.