This study focuses on the electro-optical properties of in plane switching (IPS) mode polymer-stabilized blue phase liquid crystals (PS-BPLCs) impregnated with fluorine-containing monomer precursors. The monomer mixture used contains three materials—RM257, TMPTA, and fluorine-containing monomer precursors. The weight ratio between RM257 and TMPTA is 1:1 and the concentration of the monomer mixture with respect to the BPLC is fixed to 10 wt%. Experimental results based on the voltage-dependent transmission curves indicate that the operating voltage of PS-BPLCs can effectively be reduced from 46 to 32 V when increasing the concentration of fluorine-containing monomer precursors from 0 to 2.7 wt%. Moreover, impregnating the fluorine-containing monomer precursor into PS-BPLCs enhances the strength of polymer networks and thus, reducing the residual phase retardation, caused by electric field induced helical deformation. Furthermore, in order to realize the influence of fluorine-containing monomer precursors on the electro-optical properties of PS-BPLCs, the ionic behaviors of samples after photopolymerizations are investigated by means of dielectric spectroscopy. By fitting experimental results into appreciated formula, it is found that the ionic concentration of the PS-BPLC gradually gets decreased with increasing dopant concentration of fluorine-containing monomer precursors. This implies the ion-trapping ability of the fluorine-containing polymers so as to repress the strength of the electrode double layer and reduce the operating voltage of the PS-BPLCs.