Growth of GaAs Nanowire – Graphite Nanoplatelet Hybrid Structures

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Growth of GaAs Nanowire – Graphite Nanoplatelet Hybrid Structures. / Berdnikov, Yury ; Sibirev, Niсkolay ; Khayrudinov, Vladislav; Alaferdov, Andrei; Moshkalev, Stanislav ; Ubyivovk, Evgenii ; Lipsanen, Harri; Buravlev, Alexey.

In: CrystEngComm, Vol. 21, No. 41, 06.09.2019, p. 6165-6172.

Research output: Contribution to journalArticleScientificpeer-review

Harvard

Berdnikov, Y, Sibirev, N, Khayrudinov, V, Alaferdov, A, Moshkalev, S, Ubyivovk, E, Lipsanen, H & Buravlev, A 2019, 'Growth of GaAs Nanowire – Graphite Nanoplatelet Hybrid Structures', CrystEngComm, vol. 21, no. 41, pp. 6165-6172. https://doi.org/10.1039/C9CE01027K

APA

Berdnikov, Y., Sibirev, N., Khayrudinov, V., Alaferdov, A., Moshkalev, S., Ubyivovk, E., ... Buravlev, A. (2019). Growth of GaAs Nanowire – Graphite Nanoplatelet Hybrid Structures. CrystEngComm, 21(41), 6165-6172. https://doi.org/10.1039/C9CE01027K

Vancouver

Berdnikov Y, Sibirev N, Khayrudinov V, Alaferdov A, Moshkalev S, Ubyivovk E et al. Growth of GaAs Nanowire – Graphite Nanoplatelet Hybrid Structures. CrystEngComm. 2019 Sep 6;21(41):6165-6172. https://doi.org/10.1039/C9CE01027K

Author

Berdnikov, Yury ; Sibirev, Niсkolay ; Khayrudinov, Vladislav ; Alaferdov, Andrei ; Moshkalev, Stanislav ; Ubyivovk, Evgenii ; Lipsanen, Harri ; Buravlev, Alexey. / Growth of GaAs Nanowire – Graphite Nanoplatelet Hybrid Structures. In: CrystEngComm. 2019 ; Vol. 21, No. 41. pp. 6165-6172.

Bibtex - Download

@article{d5318bfb6e8347d2abcf891acc54ef36,
title = "Growth of GaAs Nanowire – Graphite Nanoplatelet Hybrid Structures",
abstract = "We study the formation of GaAs nanowire - graphite nanoplatelet hybrid nanostructures. The quasi van-der-Waals epitaxy was used to grow the vapor-liquid-solid nanowires on a silicon substrate covered by graphite nanoplatelets. We have found that either horizontal or inclined nanowires can form depending on the relative positions of graphite nanoplatelets, as well as on the placement of catalyst nanoparticles. We present the model, which is capable of the description of the experimentally observed scenarios of planar and non-planar NW growth. Both theoretical and experimental studies show that the use of nanoplatelet substrate allows engineering the morphology of planar and inclined nanowires.",
keywords = "NANOWIRES, Nanowire, MOVPE",
author = "Yury Berdnikov and Niсkolay Sibirev and Vladislav Khayrudinov and Andrei Alaferdov and Stanislav Moshkalev and Evgenii Ubyivovk and Harri Lipsanen and Alexey Buravlev",
year = "2019",
month = "9",
day = "6",
doi = "10.1039/C9CE01027K",
language = "English",
volume = "21",
pages = "6165--6172",
journal = "CrystEngComm",
issn = "1466-8033",
number = "41",

}

RIS - Download

TY - JOUR

T1 - Growth of GaAs Nanowire – Graphite Nanoplatelet Hybrid Structures

AU - Berdnikov, Yury

AU - Sibirev, Niсkolay

AU - Khayrudinov, Vladislav

AU - Alaferdov, Andrei

AU - Moshkalev, Stanislav

AU - Ubyivovk, Evgenii

AU - Lipsanen, Harri

AU - Buravlev, Alexey

PY - 2019/9/6

Y1 - 2019/9/6

N2 - We study the formation of GaAs nanowire - graphite nanoplatelet hybrid nanostructures. The quasi van-der-Waals epitaxy was used to grow the vapor-liquid-solid nanowires on a silicon substrate covered by graphite nanoplatelets. We have found that either horizontal or inclined nanowires can form depending on the relative positions of graphite nanoplatelets, as well as on the placement of catalyst nanoparticles. We present the model, which is capable of the description of the experimentally observed scenarios of planar and non-planar NW growth. Both theoretical and experimental studies show that the use of nanoplatelet substrate allows engineering the morphology of planar and inclined nanowires.

AB - We study the formation of GaAs nanowire - graphite nanoplatelet hybrid nanostructures. The quasi van-der-Waals epitaxy was used to grow the vapor-liquid-solid nanowires on a silicon substrate covered by graphite nanoplatelets. We have found that either horizontal or inclined nanowires can form depending on the relative positions of graphite nanoplatelets, as well as on the placement of catalyst nanoparticles. We present the model, which is capable of the description of the experimentally observed scenarios of planar and non-planar NW growth. Both theoretical and experimental studies show that the use of nanoplatelet substrate allows engineering the morphology of planar and inclined nanowires.

KW - NANOWIRES

KW - Nanowire

KW - MOVPE

U2 - 10.1039/C9CE01027K

DO - 10.1039/C9CE01027K

M3 - Article

VL - 21

SP - 6165

EP - 6172

JO - CrystEngComm

JF - CrystEngComm

SN - 1466-8033

IS - 41

ER -

ID: 36668138