Initialization of Nanowire or Cluster Growth Critically Controlled by the Effective V/III Ratio at the Early Nucleation Stage

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Initialization of Nanowire or Cluster Growth Critically Controlled by the Effective V/III Ratio at the Early Nucleation Stage. / Chen, Chen; Chu, Yanmeng; Zhang, Linjun; Lin, Haojun; Fang, Wenzhang; Zhang, Zheyu; Zha, Chaofei; Wang, Kejia; Yang, Hui; Yu, Xuezhe; Gott, James A.; Aagesen, Martin; Cheng, Zhiyuan; Huo, Suguo; Liu, Huiyun; Sanchez, Ana M.; Zhang, Yunyan.

I: Journal of Physical Chemistry Letters, Bind 14, Nr. 19, 04.05.2023, s. 4433-4439.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Chen, C, Chu, Y, Zhang, L, Lin, H, Fang, W, Zhang, Z, Zha, C, Wang, K, Yang, H, Yu, X, Gott, JA, Aagesen, M, Cheng, Z, Huo, S, Liu, H, Sanchez, AM & Zhang, Y 2023, 'Initialization of Nanowire or Cluster Growth Critically Controlled by the Effective V/III Ratio at the Early Nucleation Stage', Journal of Physical Chemistry Letters, bind 14, nr. 19, s. 4433-4439. https://doi.org/10.1021/acs.jpclett.3c00484

APA

Chen, C., Chu, Y., Zhang, L., Lin, H., Fang, W., Zhang, Z., Zha, C., Wang, K., Yang, H., Yu, X., Gott, J. A., Aagesen, M., Cheng, Z., Huo, S., Liu, H., Sanchez, A. M., & Zhang, Y. (2023). Initialization of Nanowire or Cluster Growth Critically Controlled by the Effective V/III Ratio at the Early Nucleation Stage. Journal of Physical Chemistry Letters, 14(19), 4433-4439. https://doi.org/10.1021/acs.jpclett.3c00484

Vancouver

Chen C, Chu Y, Zhang L, Lin H, Fang W, Zhang Z o.a. Initialization of Nanowire or Cluster Growth Critically Controlled by the Effective V/III Ratio at the Early Nucleation Stage. Journal of Physical Chemistry Letters. 2023 maj 4;14(19):4433-4439. https://doi.org/10.1021/acs.jpclett.3c00484

Author

Chen, Chen ; Chu, Yanmeng ; Zhang, Linjun ; Lin, Haojun ; Fang, Wenzhang ; Zhang, Zheyu ; Zha, Chaofei ; Wang, Kejia ; Yang, Hui ; Yu, Xuezhe ; Gott, James A. ; Aagesen, Martin ; Cheng, Zhiyuan ; Huo, Suguo ; Liu, Huiyun ; Sanchez, Ana M. ; Zhang, Yunyan. / Initialization of Nanowire or Cluster Growth Critically Controlled by the Effective V/III Ratio at the Early Nucleation Stage. I: Journal of Physical Chemistry Letters. 2023 ; Bind 14, Nr. 19. s. 4433-4439.

Bibtex

@article{cdadd3dd019845348ff1db4d0448188f,
title = "Initialization of Nanowire or Cluster Growth Critically Controlled by the Effective V/III Ratio at the Early Nucleation Stage",
abstract = "For self-catalyzed nanowires (NWs), reports on how the catalytic droplet initiates successful NW growth are still lacking, making it difficult to control the yield and often accompanying a high density of clusters. Here, we have performed a systematic study on this issue, which reveals that the effective V/III ratio at the initial growth stage is a critical factor that governs the NW growth yield. To initiate NW growth, the ratio should be high enough to allow the nucleation to extend to the entire contact area between the droplet and substrate, which can elevate the droplet off of the substrate, but it should not be too high in order to keep the droplet. This study also reveals that the cluster growth between NWs is also initiated from large droplets. This study provides a new angle from the growth condition to explain the cluster formation mechanism, which can guide high-yield NW growth.",
keywords = "V SEMICONDUCTOR NANOWIRES, GAAS NANOWIRES, SOLAR-CELLS, SILICON, PHASE, MECHANISM, DYNAMICS, DESIGN, ARRAYS, SIOX",
author = "Chen Chen and Yanmeng Chu and Linjun Zhang and Haojun Lin and Wenzhang Fang and Zheyu Zhang and Chaofei Zha and Kejia Wang and Hui Yang and Xuezhe Yu and Gott, {James A.} and Martin Aagesen and Zhiyuan Cheng and Suguo Huo and Huiyun Liu and Sanchez, {Ana M.} and Yunyan Zhang",
year = "2023",
month = may,
day = "4",
doi = "10.1021/acs.jpclett.3c00484",
language = "English",
volume = "14",
pages = "4433--4439",
journal = "Journal of Physical Chemistry Letters",
issn = "1948-7185",
publisher = "American Chemical Society",
number = "19",

}

RIS

TY - JOUR

T1 - Initialization of Nanowire or Cluster Growth Critically Controlled by the Effective V/III Ratio at the Early Nucleation Stage

AU - Chen, Chen

AU - Chu, Yanmeng

AU - Zhang, Linjun

AU - Lin, Haojun

AU - Fang, Wenzhang

AU - Zhang, Zheyu

AU - Zha, Chaofei

AU - Wang, Kejia

AU - Yang, Hui

AU - Yu, Xuezhe

AU - Gott, James A.

AU - Aagesen, Martin

AU - Cheng, Zhiyuan

AU - Huo, Suguo

AU - Liu, Huiyun

AU - Sanchez, Ana M.

AU - Zhang, Yunyan

PY - 2023/5/4

Y1 - 2023/5/4

N2 - For self-catalyzed nanowires (NWs), reports on how the catalytic droplet initiates successful NW growth are still lacking, making it difficult to control the yield and often accompanying a high density of clusters. Here, we have performed a systematic study on this issue, which reveals that the effective V/III ratio at the initial growth stage is a critical factor that governs the NW growth yield. To initiate NW growth, the ratio should be high enough to allow the nucleation to extend to the entire contact area between the droplet and substrate, which can elevate the droplet off of the substrate, but it should not be too high in order to keep the droplet. This study also reveals that the cluster growth between NWs is also initiated from large droplets. This study provides a new angle from the growth condition to explain the cluster formation mechanism, which can guide high-yield NW growth.

AB - For self-catalyzed nanowires (NWs), reports on how the catalytic droplet initiates successful NW growth are still lacking, making it difficult to control the yield and often accompanying a high density of clusters. Here, we have performed a systematic study on this issue, which reveals that the effective V/III ratio at the initial growth stage is a critical factor that governs the NW growth yield. To initiate NW growth, the ratio should be high enough to allow the nucleation to extend to the entire contact area between the droplet and substrate, which can elevate the droplet off of the substrate, but it should not be too high in order to keep the droplet. This study also reveals that the cluster growth between NWs is also initiated from large droplets. This study provides a new angle from the growth condition to explain the cluster formation mechanism, which can guide high-yield NW growth.

KW - V SEMICONDUCTOR NANOWIRES

KW - GAAS NANOWIRES

KW - SOLAR-CELLS

KW - SILICON

KW - PHASE

KW - MECHANISM

KW - DYNAMICS

KW - DESIGN

KW - ARRAYS

KW - SIOX

U2 - 10.1021/acs.jpclett.3c00484

DO - 10.1021/acs.jpclett.3c00484

M3 - Journal article

C2 - 37141511

VL - 14

SP - 4433

EP - 4439

JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

SN - 1948-7185

IS - 19

ER -

ID: 347755624