Wafer-scale functional circuits based on two dimensional semiconductors with fabrication optimized by machine learning

Triggered by the pioneering research on graphene, the family of two-dimensional layered materials (2DLMs) has been investigated for more than a decade, and appealing functionalities have been demonstrated. However, there are still challenges inhibiting high-quality growth and circuit-level integrati...

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Autores principales: Chen, Xinyu, Xie, Yufeng, Sheng, Yaochen, Tang, Hongwei, Wang, Zeming, Wang, Yu, Wang, Yin, Liao, Fuyou, Ma, Jingyi, Guo, Xiaojiao, Tong, Ling, Liu, Hanqi, Liu, Hao, Wu, Tianxiang, Cao, Jiaxin, Bu, Sitong, Shen, Hui, Bai, Fuyu, Huang, Daming, Deng, Jianan, Riaud, Antoine, Xu, Zihan, Wu, Chenjian, Xing, Shiwei, Lu, Ye, Ma, Shunli, Sun, Zhengzong, Xue, Zhongyin, Di, Zengfeng, Gong, Xiao, Zhang, David Wei, Zhou, Peng, Wan, Jing, Bao, Wenzhong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8511068/
https://www.ncbi.nlm.nih.gov/pubmed/34642325
http://dx.doi.org/10.1038/s41467-021-26230-x
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author Chen, Xinyu
Xie, Yufeng
Sheng, Yaochen
Tang, Hongwei
Wang, Zeming
Wang, Yu
Wang, Yin
Liao, Fuyou
Ma, Jingyi
Guo, Xiaojiao
Tong, Ling
Liu, Hanqi
Liu, Hao
Wu, Tianxiang
Cao, Jiaxin
Bu, Sitong
Shen, Hui
Bai, Fuyu
Huang, Daming
Deng, Jianan
Riaud, Antoine
Xu, Zihan
Wu, Chenjian
Xing, Shiwei
Lu, Ye
Ma, Shunli
Sun, Zhengzong
Xue, Zhongyin
Di, Zengfeng
Gong, Xiao
Zhang, David Wei
Zhou, Peng
Wan, Jing
Bao, Wenzhong
author_facet Chen, Xinyu
Xie, Yufeng
Sheng, Yaochen
Tang, Hongwei
Wang, Zeming
Wang, Yu
Wang, Yin
Liao, Fuyou
Ma, Jingyi
Guo, Xiaojiao
Tong, Ling
Liu, Hanqi
Liu, Hao
Wu, Tianxiang
Cao, Jiaxin
Bu, Sitong
Shen, Hui
Bai, Fuyu
Huang, Daming
Deng, Jianan
Riaud, Antoine
Xu, Zihan
Wu, Chenjian
Xing, Shiwei
Lu, Ye
Ma, Shunli
Sun, Zhengzong
Xue, Zhongyin
Di, Zengfeng
Gong, Xiao
Zhang, David Wei
Zhou, Peng
Wan, Jing
Bao, Wenzhong
author_sort Chen, Xinyu
collection PubMed
description Triggered by the pioneering research on graphene, the family of two-dimensional layered materials (2DLMs) has been investigated for more than a decade, and appealing functionalities have been demonstrated. However, there are still challenges inhibiting high-quality growth and circuit-level integration, and results from previous studies are still far from complying with industrial standards. Here, we overcome these challenges by utilizing machine-learning (ML) algorithms to evaluate key process parameters that impact the electrical characteristics of MoS(2) top-gated field-effect transistors (FETs). The wafer-scale fabrication processes are then guided by ML combined with grid searching to co-optimize device performance, including mobility, threshold voltage and subthreshold swing. A 62-level SPICE modeling was implemented for MoS(2) FETs and further used to construct functional digital, analog, and photodetection circuits. Finally, we present wafer-scale test FET arrays and a 4-bit full adder employing industry-standard design flows and processes. Taken together, these results experimentally validate the application potential of ML-assisted fabrication optimization for beyond-silicon electronic materials.
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spelling pubmed-85110682021-10-29 Wafer-scale functional circuits based on two dimensional semiconductors with fabrication optimized by machine learning Chen, Xinyu Xie, Yufeng Sheng, Yaochen Tang, Hongwei Wang, Zeming Wang, Yu Wang, Yin Liao, Fuyou Ma, Jingyi Guo, Xiaojiao Tong, Ling Liu, Hanqi Liu, Hao Wu, Tianxiang Cao, Jiaxin Bu, Sitong Shen, Hui Bai, Fuyu Huang, Daming Deng, Jianan Riaud, Antoine Xu, Zihan Wu, Chenjian Xing, Shiwei Lu, Ye Ma, Shunli Sun, Zhengzong Xue, Zhongyin Di, Zengfeng Gong, Xiao Zhang, David Wei Zhou, Peng Wan, Jing Bao, Wenzhong Nat Commun Article Triggered by the pioneering research on graphene, the family of two-dimensional layered materials (2DLMs) has been investigated for more than a decade, and appealing functionalities have been demonstrated. However, there are still challenges inhibiting high-quality growth and circuit-level integration, and results from previous studies are still far from complying with industrial standards. Here, we overcome these challenges by utilizing machine-learning (ML) algorithms to evaluate key process parameters that impact the electrical characteristics of MoS(2) top-gated field-effect transistors (FETs). The wafer-scale fabrication processes are then guided by ML combined with grid searching to co-optimize device performance, including mobility, threshold voltage and subthreshold swing. A 62-level SPICE modeling was implemented for MoS(2) FETs and further used to construct functional digital, analog, and photodetection circuits. Finally, we present wafer-scale test FET arrays and a 4-bit full adder employing industry-standard design flows and processes. Taken together, these results experimentally validate the application potential of ML-assisted fabrication optimization for beyond-silicon electronic materials. Nature Publishing Group UK 2021-10-12 /pmc/articles/PMC8511068/ /pubmed/34642325 http://dx.doi.org/10.1038/s41467-021-26230-x Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Chen, Xinyu
Xie, Yufeng
Sheng, Yaochen
Tang, Hongwei
Wang, Zeming
Wang, Yu
Wang, Yin
Liao, Fuyou
Ma, Jingyi
Guo, Xiaojiao
Tong, Ling
Liu, Hanqi
Liu, Hao
Wu, Tianxiang
Cao, Jiaxin
Bu, Sitong
Shen, Hui
Bai, Fuyu
Huang, Daming
Deng, Jianan
Riaud, Antoine
Xu, Zihan
Wu, Chenjian
Xing, Shiwei
Lu, Ye
Ma, Shunli
Sun, Zhengzong
Xue, Zhongyin
Di, Zengfeng
Gong, Xiao
Zhang, David Wei
Zhou, Peng
Wan, Jing
Bao, Wenzhong
Wafer-scale functional circuits based on two dimensional semiconductors with fabrication optimized by machine learning
title Wafer-scale functional circuits based on two dimensional semiconductors with fabrication optimized by machine learning
title_full Wafer-scale functional circuits based on two dimensional semiconductors with fabrication optimized by machine learning
title_fullStr Wafer-scale functional circuits based on two dimensional semiconductors with fabrication optimized by machine learning
title_full_unstemmed Wafer-scale functional circuits based on two dimensional semiconductors with fabrication optimized by machine learning
title_short Wafer-scale functional circuits based on two dimensional semiconductors with fabrication optimized by machine learning
title_sort wafer-scale functional circuits based on two dimensional semiconductors with fabrication optimized by machine learning
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8511068/
https://www.ncbi.nlm.nih.gov/pubmed/34642325
http://dx.doi.org/10.1038/s41467-021-26230-x
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