Rabie Benioub scite author profile

The direct carbothermic reduction process from high-purity silica is promising for next-generation low-cost silicon solar cells. In this process, the granulation process is essential to avoid blowout of the silica powder. In this study, we investigated the effect of binders on this reduction process using four kinds of binders. The real-time monitoring of the chamber pressure and quadrupole mass spectroscopic analysis indicated the sign of the blowout phenomena of the generated CO gas and decomposition gas of the binders. In the case of starch and sucrose, the strengths of granules were not enough to the process with the pressure of the generated CO gas, while the granules with enough strength, namely, the ones with polyvinyl alcohol (PVA) and carboxymethyl cellulose (CMC), resulted in silicon yield of 33.8% and 27.8%, respectively.

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Efficient carbothermal reduction of diatomaceous earth to silicon using microwave heating

Nagahata

Mori

Saito

et al. 2021

Materials Chemistry and Physics

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Rabie Benioub

Direct Carbothermic Silica Reduction from Purified Silica to Solar-Grade Silicon

Optimization of the Granulation Binders of High-Purity Carbothermic Reduction for Solar-Grade Silicon

Efficient carbothermal reduction of diatomaceous earth to silicon using microwave heating

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