Metal-Guided Selective Growth of 2D Materials: Demonstration of a Bottom-Up CMOS Inverter

Ming Hui Chiu; Hao Ling Tang; Chien Chih Tseng; Yimo Han; Areej Aljarb; Jing Kai Huang; Yi Wan; Jui Han Fu; Xixiang Zhang; Wen Hao Chang; David A. Muller; Taishi Takenobu; Vincent Tung; Lain Jong Li

doi:10.1002/adma.201900861

Metal-Guided Selective Growth of 2D Materials: Demonstration of a Bottom-Up CMOS Inverter

Ming Hui Chiu
, Hao Ling Tang
, Chien Chih Tseng
, Yimo Han
, Areej Aljarb
, Jing Kai Huang
, Yi Wan
, Jui Han Fu
, Xixiang Zhang
, Wen Hao Chang
, David A. Muller
, Taishi Takenobu
, Vincent Tung^*
, Lain Jong Li

^*此作品的通信作者

King Abdullah University of Science and Technology
National Yang Ming Chiao Tung University
Cornell University
Nagoya University
University of New South Wales

研究成果: 期刊稿件 › 文章 › 同行評審

48 引文斯高帕斯（Scopus）

摘要

2D transition metal dichalcogenide (TMD) layered materials are promising for future electronic and optoelectronic applications. The realization of large-area electronics and circuits strongly relies on wafer-scale, selective growth of quality 2D TMDs. Here, a scalable method, namely, metal-guided selective growth (MGSG), is reported. The success of control over the transition-metal-precursor vapor pressure, the first concurrent growth of two dissimilar monolayer TMDs, is demonstrated in conjunction with lateral or vertical TMD heterojunctions at precisely desired locations over the entire wafer in a single chemical vapor deposition (VCD) process. Owing to the location selectivity, MGSG allows the growth of p- and n-type TMDs with spatial homogeneity and uniform electrical performance for circuit applications. As a demonstration, the first bottom-up complementary metal-oxide-semiconductor inverter based on p-type WSe ₂ and n-type MoSe ₂ is achieved, which exhibits a high and reproducible voltage gain of 23 with little dependence on position.

原文	英語
文章編號	1900861
期刊	Advanced Materials
卷	31
發行號	18
DOIs	https://doi.org/10.1002/adma.201900861
出版狀態	已出版 - 03 05 2019
對外發佈	是

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© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

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title = "Metal-Guided Selective Growth of 2D Materials: Demonstration of a Bottom-Up CMOS Inverter",

abstract = " 2D transition metal dichalcogenide (TMD) layered materials are promising for future electronic and optoelectronic applications. The realization of large-area electronics and circuits strongly relies on wafer-scale, selective growth of quality 2D TMDs. Here, a scalable method, namely, metal-guided selective growth (MGSG), is reported. The success of control over the transition-metal-precursor vapor pressure, the first concurrent growth of two dissimilar monolayer TMDs, is demonstrated in conjunction with lateral or vertical TMD heterojunctions at precisely desired locations over the entire wafer in a single chemical vapor deposition (VCD) process. Owing to the location selectivity, MGSG allows the growth of p- and n-type TMDs with spatial homogeneity and uniform electrical performance for circuit applications. As a demonstration, the first bottom-up complementary metal-oxide-semiconductor inverter based on p-type WSe 2 and n-type MoSe 2 is achieved, which exhibits a high and reproducible voltage gain of 23 with little dependence on position.",

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month = may,

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doi = "10.1002/adma.201900861",

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T2 - Demonstration of a Bottom-Up CMOS Inverter

AU - Chiu, Ming Hui

AU - Tang, Hao Ling

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AU - Han, Yimo

AU - Aljarb, Areej

AU - Huang, Jing Kai

AU - Wan, Yi

AU - Fu, Jui Han

AU - Zhang, Xixiang

AU - Chang, Wen Hao

AU - Muller, David A.

AU - Takenobu, Taishi

AU - Tung, Vincent

AU - Li, Lain Jong

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N2 - 2D transition metal dichalcogenide (TMD) layered materials are promising for future electronic and optoelectronic applications. The realization of large-area electronics and circuits strongly relies on wafer-scale, selective growth of quality 2D TMDs. Here, a scalable method, namely, metal-guided selective growth (MGSG), is reported. The success of control over the transition-metal-precursor vapor pressure, the first concurrent growth of two dissimilar monolayer TMDs, is demonstrated in conjunction with lateral or vertical TMD heterojunctions at precisely desired locations over the entire wafer in a single chemical vapor deposition (VCD) process. Owing to the location selectivity, MGSG allows the growth of p- and n-type TMDs with spatial homogeneity and uniform electrical performance for circuit applications. As a demonstration, the first bottom-up complementary metal-oxide-semiconductor inverter based on p-type WSe 2 and n-type MoSe 2 is achieved, which exhibits a high and reproducible voltage gain of 23 with little dependence on position.

AB - 2D transition metal dichalcogenide (TMD) layered materials are promising for future electronic and optoelectronic applications. The realization of large-area electronics and circuits strongly relies on wafer-scale, selective growth of quality 2D TMDs. Here, a scalable method, namely, metal-guided selective growth (MGSG), is reported. The success of control over the transition-metal-precursor vapor pressure, the first concurrent growth of two dissimilar monolayer TMDs, is demonstrated in conjunction with lateral or vertical TMD heterojunctions at precisely desired locations over the entire wafer in a single chemical vapor deposition (VCD) process. Owing to the location selectivity, MGSG allows the growth of p- and n-type TMDs with spatial homogeneity and uniform electrical performance for circuit applications. As a demonstration, the first bottom-up complementary metal-oxide-semiconductor inverter based on p-type WSe 2 and n-type MoSe 2 is achieved, which exhibits a high and reproducible voltage gain of 23 with little dependence on position.

KW - 2D materials

KW - chemical vapor deposition

KW - heterojunctions

KW - molybdenum diselenide

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KW - transition metal dichalcogenides

KW - tungsten diselenide

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Metal-Guided Selective Growth of 2D Materials: Demonstration of a Bottom-Up CMOS Inverter

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