Semiconductive silicon is widely used in solar cells, thyristors, and other important application. However, smelting and refining Si from silicon dioxide (SiO 2) still require a large amount of energy, particularly for the reduction of SiO 2 and removal of impurities. In this work, we designed an approach to prepare very fine Si powder from crystalline and/or amorphous SiO 2 through the magnesiothermic reduction of SiO 2 in molten salts. Moreover, the mechanism of reduction below 1273 K was elucidated. The composition of molten salts and the reaction temperature were varied, and their effect on the Si yield was investigated. The yield was lower in the molten NaCl-MgCl 2 molten salt solvent than in LiCl-MgCl 2 , likely because of the Mg 2 Si by-product formation. The higher yield in LiCl-MgCl 2 resulted from the better solubility of Mg in this molten salt and the suppression of Mg 2 Si formation.
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