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Essential Electronic Properties of Silicon Nanotubes

Hsin-Yi Liu, Ming‐Fa Lin, Jhao-Ying Wu

2021Nanomaterials21 citationsDOIOpen Access PDF

Abstract

In this work, the various electronic properties of silicon nanotubes (SiNTs) were investigated by the density functional theory. The cooperative and competitive relationships between the chiral angle, periodic boundary conditions, and multi-orbital hybridizations create unusual narrow gaps and quasi-flat bands in the ultra-small armchair and zigzag tubes, respectively. The features varied dramatically with tube radii. Armchair SiNTs (aSiNTs) have an indirect-to-direct band gap transition as their radius is increased to a particular value, while zigzag SiNTs (zSiNTs) present a metal-semiconductor transition. The projected density of states was used to elucidate the critical transitions, and the evolution of p and s orbital mixing states during the process are discussed in detail. The information presented here provides a better understanding of the essential properties of SiNTs.

Topics & Concepts

ZigzagSiliconMaterials scienceRADIUSSemiconductorCondensed matter physicsBand gapCritical radiusMixing (physics)Density functional theoryNanotechnologyPeriodic boundary conditionsBoundary value problemOptoelectronicsComputational chemistryPhysicsChemistryGeometryQuantum mechanicsSPHERESComputer scienceMathematicsAstronomyComputer securityCarbon Nanotubes in CompositesGraphene research and applicationsBoron and Carbon Nanomaterials Research