Ordered Stacking Fault Arrays in Silicon Nanowires

López, Francisco J.; Hemesath, Eric R.; Lauhon, Lincoln J.

doi:10.1021/nl901315s

Cited by 113 publications

(163 citation statements)

References 35 publications

(82 reference statements)

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“…Polytypism has attracted growing interest in materials science among group IV [1][2][3] and group III-V [4][5][6][7][8] semiconductors. Recent efforts have been made to explore the electrical and optical properties of different polytypes of pristine crystals [9][10][11][12].…”

mentioning

confidence: 99%

Asymmetric Split-Vacancy Defects in SiC Polytypes: A Combined Theoretical and Electron Spin Resonance Study

et al. 2011

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Transition metal defects were studied in different polytypes of silicon carbide (SiC) by ab initio supercell calculations. We found asymmetric split-vacancy (ASV) complexes for these defects that preferentially form at only one site in hexagonal polytypes, and they may not be detectable at all in cubic polytype. Electron spin resonance study demonstrates the existence of ASV complex in niobium doped 4H polytype of SiC.Funding Agencies|Swedish Foundation for Strategic Research||Swedish Research Council||Swedish Energy Agency||Swedish National Infrastructure for Computing|SNIC 011/04-8SNIC001-10-223|Knut and Alice Wallenberg Foundation|

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mentioning

confidence: 99%

Asymmetric Split-Vacancy Defects in SiC Polytypes: A Combined Theoretical and Electron Spin Resonance Study

et al. 2011

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“…The hexagonal or lonsdaleite structure is a metastable phase of silicon under normal conditions, also denominated as Si-IV. It has been reported by several authors in the form of nanowires Lopez et al, 2009;. Being Si-IV a metastable phase, it is expected that it may transform into diamond structure (Si-I) upon heating.…”

Section: Heating Effects During Raman Spectroscopy Measurementsmentioning

confidence: 92%

“…Additionally, the intersection of transversal and lateral twins (twins respectively along or with an angle with the growth axis) can lead to the formation of nanoscale domains with diamond hexagonal phase in the typical silicon cubic structure . As already mentioned above, one should keep in mind that even their polytypisms can have very different physical properties from the pure crystalline phases (Lopez et al, 2009). As it will be shown in the following, Raman spectroscopy is a versatile technique that helps identify materials and areas in the materials with different crystal structures and/or polytypisms.…”

Section: Existence Of Different Crystallographic Phases In a Nanowirementioning

confidence: 99%

“…www.intechopen.com In this context, even the incidence of stacking faults and twins in nanowires gains attention and it is currently under deep investigation (Bandet et al, 2002;Lopez et al, 2009;Algra et al, 2008;Caroff et a., 2009;Zardo et al, 2009a;Conesa-Boj et al, 2009;Arbiol et al, 2009;Spirkoska et al, 2009). Indeed, the atomic stacking can be altered locally from a rotationally twin plane, so that when it occurs in a cubic nanowire gives rise to the occurrence of a monolayer of the hexagonal phase .…”

Section: Existence Of Different Crystallographic Phases In a Nanowirementioning

confidence: 99%

“…Indeed, Raman spectroscopy is extremely sensitive even to structural defects such as the presence of dense stacking faults or twins (Lopez, 2009). Fig.…”

Section: Existence Of Different Crystallographic Phases In a Nanowirementioning

confidence: 99%

See 2 more Smart Citations

Raman Spectroscopy on Semiconductor Nanowires

Zardo¹,

Abstreiter²,

Morral³

2010

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Spatially-resolved and polarized Raman scattering from a single Si nanowire

Park

Rho

Song

et al. 2015

J. Raman Spectrosc.

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We report spatially‐resolved and polarized Raman scattering results from a single Si nanowire (NW). Transmission electron microscope images show that the surface morphology of the Si NW varies from smooth to rough along the long axis. As the NW grows, the smooth surface becomes rough because of Au diffusion to the surface, resulting in the formation of facets and stacking faults. Spatially‐resolved Raman spectra along the NW long axis reveal variations in tensile strain related to the morphological changes in NW surface. The tensile strain in the top segment of the NW with a smooth surface is greater than that in the bottom segment with a rough surface. Despite the formation of facets and stacking faults, polarized Raman scattering results both from the top and bottom segments of the NW are consistent with the Raman polarization selection rules expected for a cubic crystal. Copyright © 2015 John Wiley & Sons, Ltd.

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Ordered Stacking Fault Arrays in Silicon Nanowires

Cited by 113 publications

References 35 publications

Asymmetric Split-Vacancy Defects in SiC Polytypes: A Combined Theoretical and Electron Spin Resonance Study

Asymmetric Split-Vacancy Defects in SiC Polytypes: A Combined Theoretical and Electron Spin Resonance Study

Raman Spectroscopy on Semiconductor Nanowires

Spatially-resolved and polarized Raman scattering from a single Si nanowire

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