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Millisecond Conversion of Photovoltaic Silicon Waste to Binder‐Free High Silicon Content Nanowires Electrodes

Jijun Lu, Siliang Liu, Junhao Liu, Guoyu Qian, Dong Wang, Xuzhong Gong, Yida Deng, Yanan Chen, Zhi Wang

2021Advanced Energy Materials120 citationsDOI

Abstract

Abstract High‐value recycling of photovoltaic silicon waste is an important path to achieve “carbon neutrality.” However, the current remelting and refining technology of Si waste (WSi) is tedious with high secondary energy consumption and repollution, and it can only achieve its relegation recycling. Here, an efficient and high‐value recycling strategy is proposed in which photovoltaic WSi is converted to high energy density and stable Si nanowires (SiNWs) electrodes for lithium‐ion batteries (LIBs) in milliseconds. The flash heating and quenching (≈2100 K, 10 ms) provided by an electrothermal shock drive directional diffusion of Si atoms to form SiNWs within the confined space between graphene oxide films. As a result, the SiNWs self‐assemble to form a conductive SiNWs–reduced graphene oxide composite (SiNWs@RGO). When applied as a binder‐free anode for LIBs the SiNWs@RGO electrode exhibits an ultrahigh initial Coulombic efficiency (89.5%) and robust cycle stability (2381.7 mAh g −1 at 1 A g −1 for more than 500 cycles) at high Si content of 76%. Moreover, full LIBs constructed using the commercial Li[Ni 0.8 Co 0.16 Al 0.04 ]O 2 cathode exhibit impressive cycling performance. In addition, this clean high‐value recycling method will promote economic, environmentally friendly, and sustainable development of renewable energy.

Topics & Concepts

Materials scienceAnodeFaraday efficiencySiliconRenewable energyGrapheneElectrodePhotovoltaic systemCathodeOxideNanotechnologyCurrent collectorChemical engineeringOptoelectronicsMetallurgyElectrical engineeringEngineeringChemistryPhysical chemistryElectrolyteAdvancements in Battery MaterialsExtraction and Separation ProcessesAdvanced Battery Technologies Research
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