Publication | Closed Access
A simple and scalable approach to hollow silicon nanotube (h-SiNT) anode architectures of superior electrochemical stability and reversible capacity
43
Citations
30
References
2015
Year
EngineeringNanoporous MaterialHollow Silicon NanotubesMagnesium OxideChemical EngineeringNanostructure SynthesisAnode ArchitecturesScalable ApproachMaterials ScienceElectrical EngineeringNanotechnologyElectrochemical Power SourceEnergy StorageElectrochemical ProcessElectrochemistryNanomaterialsMicrofabricationMetal AnodeMagnesium-based CompositeRecyclable Sacrificial TemplateElectrochemical Energy StorageSilicon NanotubeFunctional Materials
A simple, facile, and more importantly, recyclable sacrificial template based approach involving magnesium oxide (MgO) nanorods for producing scalable quantities of hollow silicon nanotubes (h-SiNTs) architectures is discussed in this report.
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