Recent studies on design liquid crystal based sensor which was focused on liquid crystal/aqueous interface property to control liquid crystal arrangement. In detection of metal ions system, This system was composed of five individual detection wells in which the nematic LC 4-cyano-4’-pentyl biphenyl (5CB) was doped with a metal selective ligand including. When the solution containing metal ions was injected into the well, the formation of metal complex disrupted the orientation of LCs, which led to a transition of the image. Multiplex screening of the metal ions was achieved through the specific binding of ligands to various metal ions; while the quantitative determination was achieved by applying the ligands with different sensitivities toward the same metal ion. This system can be readily understood through human naked-eye under ambient light, it provides a simple approach for fast-screening water quality with less limitations. In pH determination system, 4-cyano-4’-pentyl biphenyl (5CB) was doped with pH sensitive probe, respectively. When the system was injected with the different pH solution, the dissociation of charged dopants would reorientate LCs and lead to transition of the image. The results of the LC based sensor have defined the range of the pH from pH 7 to pH 8 by used different dopants. In addition, the system used different concentration dopant have defined the range of the pH from pH 6.2 to pH 7. The results show the real time and accurate measurements of the pH range specifically and with great stability.