“…Owing to their specific characteristics, wax droplets and spheres have been widely used in leather, paper, textiles, automobiles and cosmetics. − For a great part of these applications, they are often used in the form of emulsions or dispersions, particularly in the home construction, paper, and agriculture industries, − and relevant studies have been extensively reported. − Wax spheres of a large size that are several hundreds of micrometers in diameter are also useful in tissue engineering and in the preparation of functional Janus particles. − Wax emulsification refers to the processes by which the wax, usually in the liquid state, is dispersed into a solvent as tiny droplets with varied size from the nanoscale , to several micrometers or larger. ,,,, In most of the cases, water is the continuous phase (the solvent). The dispersion is achieved in general by mechanical stirring or homogenization at high speed. ,, To keep the dispersion stable for a desired time, surfactants or stabilizers with cosurfactants and other additives are usually necessary. The amounts of surfactants and associated additives are usually quite high; about 10 wt % relative to the wax is common when ionic surfactants are used, and it reaches 40 wt % when nonionic surfactants or polymeric dispersants are used. , The abundant use of the surfactants/dispersants and associated additive increases the prime cost of the product and is also unpleasant in many applications, particularly in biological and medical applications.…”