Polarity-driven nonuniform composition in InGaAs nanowires

Ya Nan Guo; Timothy Burgess; Qiang Gao; H. Hoe Tan; Chennupati Jagadish; Jin Zou

doi:10.1021/nl402244p

Polarity-driven nonuniform composition in InGaAs nanowires

Ya Nan Guo, Timothy Burgess, Qiang Gao, H. Hoe Tan, Chennupati Jagadish, Jin Zou^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

37 Citations (Scopus)

Abstract

Manipulating the composition and morphology of semiconductor nanowires in a precisely controlled fashion is critical in developing nanowire devices. This is particularly true for ternary III-V nanowires. Many studies have shown the complexities within those nanowires. Here we report our findings of compositional irregularity in the shells of core-shell InGaAs nanowires with zinc-blende structure. Such an effect is caused by the crystal polarity within III-V zinc-blende lattice and the one-dimensional nature of nanowires that allows the formation of opposite polar surfaces simultaneously on the nanowire sidewalls. This polarity-driven effect in III-V nanowires may be utilized in manipulating the composition and morphology of III-V nanowires for device applications.

Original language	English
Pages (from-to)	5085-5089
Number of pages	5
Journal	Nano Letters
Volume	13
Issue number	11
DOIs	https://doi.org/10.1021/nl402244p
Publication status	Published - 13 Nov 2013

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title = "Polarity-driven nonuniform composition in InGaAs nanowires",

abstract = "Manipulating the composition and morphology of semiconductor nanowires in a precisely controlled fashion is critical in developing nanowire devices. This is particularly true for ternary III-V nanowires. Many studies have shown the complexities within those nanowires. Here we report our findings of compositional irregularity in the shells of core-shell InGaAs nanowires with zinc-blende structure. Such an effect is caused by the crystal polarity within III-V zinc-blende lattice and the one-dimensional nature of nanowires that allows the formation of opposite polar surfaces simultaneously on the nanowire sidewalls. This polarity-driven effect in III-V nanowires may be utilized in manipulating the composition and morphology of III-V nanowires for device applications.",

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T1 - Polarity-driven nonuniform composition in InGaAs nanowires

AU - Guo, Ya Nan

AU - Burgess, Timothy

AU - Gao, Qiang

AU - Tan, H. Hoe

AU - Jagadish, Chennupati

AU - Zou, Jin

PY - 2013/11/13

Y1 - 2013/11/13

N2 - Manipulating the composition and morphology of semiconductor nanowires in a precisely controlled fashion is critical in developing nanowire devices. This is particularly true for ternary III-V nanowires. Many studies have shown the complexities within those nanowires. Here we report our findings of compositional irregularity in the shells of core-shell InGaAs nanowires with zinc-blende structure. Such an effect is caused by the crystal polarity within III-V zinc-blende lattice and the one-dimensional nature of nanowires that allows the formation of opposite polar surfaces simultaneously on the nanowire sidewalls. This polarity-driven effect in III-V nanowires may be utilized in manipulating the composition and morphology of III-V nanowires for device applications.

AB - Manipulating the composition and morphology of semiconductor nanowires in a precisely controlled fashion is critical in developing nanowire devices. This is particularly true for ternary III-V nanowires. Many studies have shown the complexities within those nanowires. Here we report our findings of compositional irregularity in the shells of core-shell InGaAs nanowires with zinc-blende structure. Such an effect is caused by the crystal polarity within III-V zinc-blende lattice and the one-dimensional nature of nanowires that allows the formation of opposite polar surfaces simultaneously on the nanowire sidewalls. This polarity-driven effect in III-V nanowires may be utilized in manipulating the composition and morphology of III-V nanowires for device applications.

KW - InGaAs nanowires

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KW - polarity

KW - zinc blende

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JO - Nano Letters

JF - Nano Letters

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Polarity-driven nonuniform composition in InGaAs nanowires

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