Abstract
Recently, the demands for flat panel displays such as Liquid Crystal Displays, Electroluminescence and Vacuum Fluorescent Displays are increasing for the display of personal computers and word - processors. One of the major constituent parts of flat panel display is the transparent conductive layer. The rigid requirement for the transmittance and conductance of the transparent conductive layer complicated the production condition. In order to simplify the production process and improve the productivity, attempts were made to optimize the production condition through the quality engineering approach. Our attempts have succeeded in minimizing the complexities of the production process and producing the transparent conductive layers with a quality which is good enough for the intended applications.
