Angewandte Chemie - International Edition
Angewandte Chemie - International Edition
4 years ago

Low-Temperature Molten-Salt Production of Silicon Nanowires by the Electrochemical Reduction of CaSiO3

Low-Temperature Molten-Salt Production of Silicon Nanowires by the Electrochemical Reduction of CaSiO3
Tyler Slade, Matthew J. Stolt, Song Jin, Steven N. Girard, Liqiang Mai, Linsen Li, Yifan Dong
Silicon is an extremely important technological material, but its current industrial production by the carbothermic reduction of SiO2 is energy intensive and generates CO2 emissions. Herein, we developed a more sustainable method to produce silicon nanowires (Si NWs) in bulk quantities through the direct electrochemical reduction of CaSiO3, an abundant and inexpensive Si source soluble in molten salts, at a low temperature of 650 °C by using low-melting-point ternary molten salts CaCl2–MgCl2–NaCl, which still retains high CaSiO3 solubility, and a supporting electrolyte of CaO, which facilitates the transport of O2− anions, drastically improves the reaction kinetics, and enables the electrolysis at low temperatures. The Si nanowire product can be used as high-capacity Li-ion battery anode materials with excellent cycling performance. This environmentally friendly strategy for the practical production of Si at lower temperatures can be applied to other molten salt systems and is also promising for waste glass and coal ash recycling. From old glass to batteries: A new and more sustainable method to produce Si nanowires in bulk quantities through the direct electrochemical reduction of CaSiO3 at a low temperature of 650 °C was developed. The method uses the low-melting-point ternary molten salts of CaCl2–MgCl2–NaCl, which retain high CaSiO3-solubility, and a supporting electrolyte of CaO, which drastically improves the reaction kinetics and enables the electrolysis at low temperatures.

Publisher URL: http://onlinelibrary.wiley.com/resolve/doi

DOI: 10.1002/anie.201707064

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