We have measured the electro-optical effects of TN cells either home-made or made by a TFT-LCD panel maker. The experimental results on home-made samples showed only “Discharge effect” similar to the published results that was caused by the high-ionization-rate (HIR) impurities within the samples. However, for the first time, we have obtained experimental results on panel-maker-made samples at different temperatures that showed two different tendencies: “Discharge effect” and “Charging-Up effect”. We believe that these two different tendencies can be explained by the existences of low-ionization-rate (LIR) impurities in TN cells or alignment layers or both. For some samples, we have observed the change from Charging-Up effect at low temperature to Discharge effect at a higher temperature. We have derived equations to calculate both the ionic concentration and the ionization-rate of impurities for both tendencies. The Discharge effect was caused by more ions ionized and drifted within the LC medium than within the alignment layers under the same external applied voltage to the TN cell. The Charging-Up effect was just the opposite case. 　　In this thesis, we also suggest new methods of measurement and analysis to obtain simultaneously the ionization rate of impurities within the LC medium and the alignment layers. This will serve as an extension of this thesis to make significant contribution on the further understanding of ionic effects within panel-maker-made LC cells consisting of LC medium and alignment layers.