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A Low-Cost Preparation of Si@C Composite Anode from Si Photovoltaic Waste

Shiyun Zhang, Jian Xie, Chunyang Wu, XinbingZhao

2020International Journal of Electrochemical Science13 citationsDOIOpen Access PDF

Abstract

Silicon materials are recognized as one of the most attractive anode materials in Li-ion batteries (LIBs) due to their ultrahigh capacity. However, there are still challenges to fabricate silicon-based anodes with a sustainable, scalable and cost-effective method. In this work, nanoscale Si was synthesized using the wafer slicing wastes from photovoltaic (PV) industry via a scalable and facile fabrication approach. After purification and sand milling, the obtained Si of 100–200 nm delivers a high discharge capacity of 2554 mAh g -1 . To address the potential application of the nanoscale Si in practical LIBs, a silicon/carbon composite (Si@C-G) was made, which is composed of the nanoscale Si, artificial graphite, graphene and pyrolytic carbon. The Si@C-G composite anode could yield a stable capacity of around 400 mAh g -1 , and a high retention rate of 91% can be achieved after 100 cycles, where the introduced graphene provide a better conducting/buffering network. Our work shows the waste Si from PV industry can be recycled and reused in LIBs industry.

Topics & Concepts

AnodePhotovoltaic systemComposite numberMaterials scienceChemical engineeringWaste managementComposite materialChemistryElectrical engineeringEngineeringElectrodePhysical chemistryAdvancements in Battery MaterialsAdvanced Battery Technologies ResearchAdvanced Battery Materials and Technologies
A Low-Cost Preparation of Si@C Composite Anode from Si Photovoltaic Waste | Litcius