Fluoride metal salt (FCS) square measure wide utilized in dental tissue engineering because of their wonderful biological properties. This study aimed to develop novel banking system with multiple biofunctions as dentifrice additives. during this study, the preparation of composite banking system, morphologies of the composites and therefore the in vitro biofunctions were investigated. Metal salt with 0.7% (wt) halide was ready by coprecipitation methodology. Pure metal salt (CS) was synthesized for dominant study. Biomimetic mineralization study was conducted in simulated humour (SBF), the composition, part structure; mineral formation and morphology were investigated by X-ray light Analysis (XPS), X-ray diffraction analysis (XRD), Fourier remodel infrared spectrometry (FTIR), scanning microscope (SEM) and transmission microscope (TEM). In vitro cell viability studies showed that the halide ions promoted cell proliferation and differentiation. This study indicated that banking system shown sensible bioactivity to induce mineral formation and it may be promising dentifrice additives with specific biofunction.