Rikuo Tsutsumi scite author profile

We control the formation of Bi-induced nanostructures on the growth of GaAs/GaAsBi core–shell nanowires (NWs). Bi serves as not only a constituent but also a surfactant and nanowire growth catalyst. Thus, we paved a way to achieve unexplored III–V nanostructures employing the characteristic supersaturation of catalyst droplets, structural modifications induced by strain, and incorporation into the host GaAs matrix correlated with crystalline defects and orientations. When Ga is deficient during growth, Bi accumulates on the vertex of core GaAs NWs and serves as a nanowire growth catalyst for the branched structures to azimuthal <112>. We find a strong correlation between Bi accumulation and stacking faults. Furthermore, Bi is preferentially incorporated on the GaAs (112)B surface, leading to spatially selective Bi incorporation into a confined area that has a Bi concentration of over 7%. The obtained GaAs/GaAsBi/GaAs heterostructure with an interface defined by the crystalline twin defects in a zinc-blende structure can be potentially applied to a quantum confined structure. Our finding provides a rational design concept for the creation of GaAsBi based nanostructures and the control of Bi incorporation beyond the fundamental limit.

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Outermost AlGaO_xnative oxide as a protection layer for GaAs/AlGaAs core-multishell nanowires

Tsutsumi

Tsuda

Zhang

et al. 2020

Appl. Phys. Express

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We propose native oxide AlGaOx outer protective layer for GaAs/AlGaAs coremultishell nanowires to provide yearly stable stronger optical and electrical confinement within the nanowire core. We prepared core-multishell NWs consisting of GaAs core, Al0.2Ga0.8As multi-layered barrier layer, and amorphous Al0.9Ga0.1Ox outer shell, which was obtained simply by growing Al-rich AlGaAs and exposing the NWs to the ambient air. Photoluminescence from the NWs reveals that the Al0.9Ga0.1Ox outer shell provides efficient optical confinement and creates a compressive strain in the interior of the NW that enhances and blueshifts the photoluminescence of the GaAs core.

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Wafer-scale integration of GaAs/AlGaAs core–shell nanowires on silicon by the single process of self-catalyzed molecular beam epitaxy

et al. 2023

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2-inch wafer sized GaAs nanowire ensembles on Sigrown by self-assisted molecular beam epitaxy

SAKAGUCHI¹,

Tsutsumi²,

Ohno³

et al. 2020

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GaAs/AlGaAs Core-Multishell Structure Covered by Native oxide AlGaOx

Tsutsumi¹,

Tsuda²,

Ishikawa³

2019

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Rikuo Tsutsumi

Controlling Bi-Provoked Nanostructure Formation in GaAs/GaAsBi Core–Shell Nanowires

Outermost AlGaO_xnative oxide as a protection layer for GaAs/AlGaAs core-multishell nanowires

Wafer-scale integration of GaAs/AlGaAs core–shell nanowires on silicon by the single process of self-catalyzed molecular beam epitaxy

2-inch wafer sized GaAs nanowire ensembles on Sigrown by self-assisted molecular beam epitaxy

GaAs/AlGaAs Core-Multishell Structure Covered by Native oxide AlGaOx

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Rikuo Tsutsumi

Controlling Bi-Provoked Nanostructure Formation in GaAs/GaAsBi Core–Shell Nanowires

Outermost AlGaOxnative oxide as a protection layer for GaAs/AlGaAs core-multishell nanowires

Wafer-scale integration of GaAs/AlGaAs core–shell nanowires on silicon by the single process of self-catalyzed molecular beam epitaxy

2-inch wafer sized GaAs nanowire ensembles on Sigrown by self-assisted molecular beam epitaxy

GaAs/AlGaAs Core-Multishell Structure Covered by Native oxide AlGaOx

Contact Info

Product

Resources

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Outermost AlGaO_xnative oxide as a protection layer for GaAs/AlGaAs core-multishell nanowires