This paper reports the influence of:emulsification process on the packing of layered doubt hydroxide (LDP) particles at the aqueous/oil phase interface and the properties of the resulting Piekering emulsions. Emulsions prepared by ultrasonication display superior long-term stability and gel-like characteristics at the dispersed phase volume fraction well below the random close packing limit, whereas emulsions with same, Compositions prepared by vortex mixing, show some,extent of sedimentation and liquid-like behaviors. Rheological measurements demonstrate that the zero shear elastic modulus and yield stress of gel like emulsions exhibit power law dependences on particle concentration and independence on aqueous/oil phase ratio. The microstructural origin of this behavior is investigated by optical microscopy, revealing the droplets become strongly adhesive and gel-heterogeneous percolating, network is formed among neighboring droplets. Fluorescent confocal microscopy measurements further confirm that the droplet adhesion is due to particle layers, bridging opposite interfaces. In contrast, homogeneous, isolated, and densely packed droplets are present in emulsions prepared by vortex mixing, which results in these systems being dominantly Viscous like the suspending fluid. This study:shows that the emulsification process can be used as a trigger to modify long-term stability and theology of solid-stabilized multiphase mixtures, which greatly expands their potential technological applications.