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Annealing or direct synthesis of uniform inorganic nanoparticles using salt powder as separation medium
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Annealing or direct synthesis of uniform inorganic nanoparticles using salt powder as separation medium
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Journal Article
Annealing or direct synthesis of uniform inorganic nanoparticles using salt powder as separation medium
2017
Overview
Uniform nanoparticles have shown to hold great potential in many different fields. As a result, many resources have been devoted to the search for a general synthesis of uniform nanoparticles, which has led to the proliferation of solution-based methods. However, some of these techniques are inherently difficult to scale up and are unable to meet future industry needs. Additionally, since the synthesis temperature of these methods can only go as high as the evaporation point of the solvent, they are not compatible with the high temperatures required to obtain certain desired properties such as high crystallinity. Recently, solventless methods have gained considerable attention since they are relatively fast and require no expensive or toxic solvents. Inorganic salt powder can be used as separation medium to prevent aggregation and sintering by keeping the as-prepared nanoparticles or precursor materials physically separated. This review surveys the use of inorganic salts in solventless techniques for the annealing or direct synthesis of uniform nanoparticles.
Graphical abstract
Fine inorganic salt powder can be used as separation medium to prevent aggregation and sintering by keeping the as-prepared nanoparticles or precursor materials physically separated. The primary advantages of this strategy are its simplicity and the ability to easily scale-up. Additionally, this strategy can use a wider temperature window compared to solution-based syntheses. Lastly, the inorganic salt powder can be separated and reused by washing the final nanomaterials. This review surveys the use of inorganic salts in solventless techniques for the annealing or direct synthesis of uniform nanoparticles.
Publisher
Springer Netherlands,Springer Nature B.V
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