**4. Conclusion**

Magnesium borates are beneficial for many industrial-scale applications. The ease of their synthesis increases the interest in the studies in this field. The properties of synthesized samples are related with their characteristics. This situation requires the modification of the traditional synthesis method with novel technologies. In this chapter, the relationship between the characteristics, properties, and novel technologies was interpreted. The comparative table of traditional and advanced synthesis methods can be seen in **Table 3**. The common points of the advanced syntheses techniques are the increase in contact interfaces between the molecules of starting materials. Decreasing the reaction time and temperature can be obtained at higher reaction yields with the help of effective contact of molecules. The other important advantage is the modification of particle surfaces.

The improved characteristics showed their effects in the applications. The common applications of magnesium borates are limited by mechanical and radiation permeation. However, the use of magnesium borates with the contribution of their redesigned morphologies was begun in adsorption, ion-battery agent, and hydrogen release agent in chemotherapy.

It is expected that the significance of magnesium borates in industrial applications would be expanded with the increase of advanced technologies in magnesium borate synthesis. In this case, the development of modified synthesis techniques with a novel experimental setup is suggested.
