Machine Learning Driven Synthesis of Few-Layered WTe2with Geometrical Control

Manzhang Xu; Bijun Tang; Yuhao Lu; Chao Zhu; Qianbo Lu; Chao Zhu; Lu Zheng; Jingyu Zhang; Nannan Han; Weidong Fang; Yuxi Guo; Jun Di; Pin Song; Yongmin He; Lixing Kang; Zhiyong Zhang; Wu Zhao; Cuntai Guan; Xuewen Wang; Zheng Liu

doi:10.1021/jacs.1c06786

Machine Learning Driven Synthesis of Few-Layered WTe₂with Geometrical Control

Manzhang Xu, Bijun Tang, Yuhao Lu, Chao Zhu, Qianbo Lu, Chao Zhu, Lu Zheng, Jingyu Zhang, Nannan Han, Weidong Fang, Yuxi Guo, Jun Di, Pin Song, Yongmin He, Lixing Kang, Zhiyong Zhang, Wu Zhao, Cuntai Guan, Xuewen Wang, Zheng Liu

柔性电子研究院

科研成果: 期刊稿件 › 文章 › 同行评审

44 引用（Scopus）

摘要

Reducing the lateral scale of two-dimensional (2D) materials to one-dimensional (1D) has attracted substantial research interest not only to achieve competitive electronic applications but also for the exploration of fundamental physical properties. Controllable synthesis of high-quality 1D nanoribbons (NRs) is thus highly desirable and essential for further study. Here, we report the implementation of supervised machine learning (ML) for the chemical vapor deposition (CVD) synthesis of high-quality quasi-1D few-layered WTe2 NRs. Feature importance analysis indicates that H2 gas flow rate has a profound influence on the formation of WTe2, and the source ratio governs the sample morphology. Notably, the growth mechanism of 1T′ few-layered WTe2 NRs is further proposed, which provides new insights for the growth of intriguing 2D and 1D tellurides and may inspire the growth strategies for other 1D nanostructures. Our findings suggest the effectiveness and capability of ML in guiding the synthesis of 1D nanostructures, opening up new opportunities for intelligent materials development.

源语言	英语
页（从-至）	18103-18113
页数	11
期刊	Journal of the American Chemical Society
卷	143
期	43
DOI	https://doi.org/10.1021/jacs.1c06786
出版状态	已出版 - 3 11月 2021

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10.1021/jacs.1c06786

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Xu, M., Tang, B., Lu, Y., Zhu, C., Lu, Q., Zhu, C., Zheng, L., Zhang, J., Han, N., Fang, W., Guo, Y., Di, J., Song, P., He, Y., Kang, L., Zhang, Z., Zhao, W., Guan, C., Wang, X., & Liu, Z. (2021). Machine Learning Driven Synthesis of Few-Layered WTe₂with Geometrical Control. Journal of the American Chemical Society, 143(43), 18103-18113. https://doi.org/10.1021/jacs.1c06786

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title = "Machine Learning Driven Synthesis of Few-Layered WTe2with Geometrical Control",

abstract = "Reducing the lateral scale of two-dimensional (2D) materials to one-dimensional (1D) has attracted substantial research interest not only to achieve competitive electronic applications but also for the exploration of fundamental physical properties. Controllable synthesis of high-quality 1D nanoribbons (NRs) is thus highly desirable and essential for further study. Here, we report the implementation of supervised machine learning (ML) for the chemical vapor deposition (CVD) synthesis of high-quality quasi-1D few-layered WTe2 NRs. Feature importance analysis indicates that H2 gas flow rate has a profound influence on the formation of WTe2, and the source ratio governs the sample morphology. Notably, the growth mechanism of 1T′ few-layered WTe2 NRs is further proposed, which provides new insights for the growth of intriguing 2D and 1D tellurides and may inspire the growth strategies for other 1D nanostructures. Our findings suggest the effectiveness and capability of ML in guiding the synthesis of 1D nanostructures, opening up new opportunities for intelligent materials development.",

author = "Manzhang Xu and Bijun Tang and Yuhao Lu and Chao Zhu and Qianbo Lu and Chao Zhu and Lu Zheng and Jingyu Zhang and Nannan Han and Weidong Fang and Yuxi Guo and Jun Di and Pin Song and Yongmin He and Lixing Kang and Zhiyong Zhang and Wu Zhao and Cuntai Guan and Xuewen Wang and Zheng Liu",

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doi = "10.1021/jacs.1c06786",

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Xu, M, Tang, B, Lu, Y, Zhu, C, Lu, Q, Zhu, C, Zheng, L, Zhang, J, Han, N, Fang, W, Guo, Y, Di, J, Song, P, He, Y, Kang, L, Zhang, Z, Zhao, W, Guan, C, Wang, X & Liu, Z 2021, 'Machine Learning Driven Synthesis of Few-Layered WTe₂with Geometrical Control', Journal of the American Chemical Society, 卷 143, 号码 43, 页码 18103-18113. https://doi.org/10.1021/jacs.1c06786

TY - JOUR

T1 - Machine Learning Driven Synthesis of Few-Layered WTe2with Geometrical Control

AU - Xu, Manzhang

AU - Tang, Bijun

AU - Lu, Yuhao

AU - Zhu, Chao

AU - Lu, Qianbo

AU - Zhu, Chao

AU - Zheng, Lu

AU - Zhang, Jingyu

AU - Han, Nannan

AU - Fang, Weidong

AU - Guo, Yuxi

AU - Di, Jun

AU - Song, Pin

AU - He, Yongmin

AU - Kang, Lixing

AU - Zhang, Zhiyong

AU - Zhao, Wu

AU - Guan, Cuntai

AU - Wang, Xuewen

AU - Liu, Zheng

PY - 2021/11/3

Y1 - 2021/11/3

N2 - Reducing the lateral scale of two-dimensional (2D) materials to one-dimensional (1D) has attracted substantial research interest not only to achieve competitive electronic applications but also for the exploration of fundamental physical properties. Controllable synthesis of high-quality 1D nanoribbons (NRs) is thus highly desirable and essential for further study. Here, we report the implementation of supervised machine learning (ML) for the chemical vapor deposition (CVD) synthesis of high-quality quasi-1D few-layered WTe2 NRs. Feature importance analysis indicates that H2 gas flow rate has a profound influence on the formation of WTe2, and the source ratio governs the sample morphology. Notably, the growth mechanism of 1T′ few-layered WTe2 NRs is further proposed, which provides new insights for the growth of intriguing 2D and 1D tellurides and may inspire the growth strategies for other 1D nanostructures. Our findings suggest the effectiveness and capability of ML in guiding the synthesis of 1D nanostructures, opening up new opportunities for intelligent materials development.

AB - Reducing the lateral scale of two-dimensional (2D) materials to one-dimensional (1D) has attracted substantial research interest not only to achieve competitive electronic applications but also for the exploration of fundamental physical properties. Controllable synthesis of high-quality 1D nanoribbons (NRs) is thus highly desirable and essential for further study. Here, we report the implementation of supervised machine learning (ML) for the chemical vapor deposition (CVD) synthesis of high-quality quasi-1D few-layered WTe2 NRs. Feature importance analysis indicates that H2 gas flow rate has a profound influence on the formation of WTe2, and the source ratio governs the sample morphology. Notably, the growth mechanism of 1T′ few-layered WTe2 NRs is further proposed, which provides new insights for the growth of intriguing 2D and 1D tellurides and may inspire the growth strategies for other 1D nanostructures. Our findings suggest the effectiveness and capability of ML in guiding the synthesis of 1D nanostructures, opening up new opportunities for intelligent materials development.

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U2 - 10.1021/jacs.1c06786

DO - 10.1021/jacs.1c06786

M3 - 文章

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AN - SCOPUS:85117207797

SN - 0002-7863

VL - 143

SP - 18103

EP - 18113

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 43

ER -

Machine Learning Driven Synthesis of Few-Layered WTe2with Geometrical Control

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Machine Learning Driven Synthesis of Few-Layered WTe₂with Geometrical Control