Confined van der Waals Epitaxial Growth of Two-Dimensional Large Single-Crystal In2Se3 for Flexible Broadband Photodetectors

Confined van der Waals Epitaxial Growth of Two-Dimensional Large Single-Crystal In2Se3 for Flexible Broadband Photodetectors

The controllable growth of two-dimensional (2D) semiconductors with large domain sizes and high quality is much needed in order to reduce the detrimental effect of grain boundaries on device performance but has proven to be challenging. Here, we analyze the precursor concentration on the substrate s...

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Main Authors: Lei Tang, Changjiu Teng, Yuting Luo, Usman Khan, Haiyang Pan, Zhengyang Cai, Yue Zhao, Bilu Liu, Hui-Ming Cheng
Format: Article
Language:English
Published: American Association for the Advancement of Science 2019-01-01
Series:Research
Online Access:http://dx.doi.org/10.1155/2019/2763704
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spelling doaj-be6b48863ef24ac3a2024fc220e371eb2020-11-24T23:56:38ZengAmerican Association for the Advancement of ScienceResearch2639-52742019-01-01201910.1155/2019/2763704Confined van der Waals Epitaxial Growth of Two-Dimensional Large Single-Crystal In2Se3 for Flexible Broadband PhotodetectorsLei Tang0Changjiu Teng1Yuting Luo2Usman Khan3Haiyang Pan4Zhengyang Cai5Yue Zhao6Yue Zhao7Bilu Liu8Hui-Ming Cheng9Hui-Ming Cheng10Shenzhen Geim Graphene Center,Tsinghua-Berkeley Shenzhen Institute,Tsinghua University,Shenzhen 518055,ChinaShenzhen Geim Graphene Center,Tsinghua-Berkeley Shenzhen Institute,Tsinghua University,Shenzhen 518055,ChinaShenzhen Geim Graphene Center,Tsinghua-Berkeley Shenzhen Institute,Tsinghua University,Shenzhen 518055,ChinaShenzhen Geim Graphene Center,Tsinghua-Berkeley Shenzhen Institute,Tsinghua University,Shenzhen 518055,ChinaShenzhen Institute for Quantum Science and Engineering and Department of Physics,Southern University of Science and Technology,Shenzhen 518055,ChinaShenzhen Geim Graphene Center,Tsinghua-Berkeley Shenzhen Institute,Tsinghua University,Shenzhen 518055,ChinaShenzhen Institute for Quantum Science and Engineering and Department of Physics,Southern University of Science and Technology,Shenzhen 518055,ChinaShenzhen Key Laboratory of Quantum Science and Engineering,Shenzhen 518055,ChinaShenzhen Geim Graphene Center,Tsinghua-Berkeley Shenzhen Institute,Tsinghua University,Shenzhen 518055,ChinaShenzhen Geim Graphene Center,Tsinghua-Berkeley Shenzhen Institute,Tsinghua University,Shenzhen 518055,ChinaShenyang National Laboratory for Materials Sciences,Institute of Metal Research,Chinese Academy of Sciences,Shenyang 110016,ChinaThe controllable growth of two-dimensional (2D) semiconductors with large domain sizes and high quality is much needed in order to reduce the detrimental effect of grain boundaries on device performance but has proven to be challenging. Here, we analyze the precursor concentration on the substrate surface which significantly influences nucleation density in a vapor deposition growth process and design a confined micro-reactor to grow 2D In2Se3 with large domain sizes and high quality. The uniqueness of this confined micro-reactor is that its size is ~102-103 times smaller than that of a conventional reactor. Such a remarkably small reactor causes a very low precursor concentration on the substrate surface, which reduces nucleation density and leads to the growth of 2D In2Se3 grains with sizes larger than 200 μm. Our experimental results show large domain sizes of the 2D In2Se3 with high crystallinity. The flexible broadband photodetectors based on the as-grown In2Se3 show rise and decay times of 140 ms and 25 ms, efficient response (5.6 A/W), excellent detectivity (7×1010 Jones), high external quantum efficiency (251%), good flexibility, and high stability. This study, in principle, provides an effective strategy for the controllable growth of high quality 2D materials with few grain boundaries.http://dx.doi.org/10.1155/2019/2763704
collection DOAJ
language English
format Article
sources DOAJ
author Lei Tang
Changjiu Teng
Yuting Luo
Usman Khan
Haiyang Pan
Zhengyang Cai
Yue Zhao
Yue Zhao
Bilu Liu
Hui-Ming Cheng
Hui-Ming Cheng
spellingShingle Lei Tang
Changjiu Teng
Yuting Luo
Usman Khan
Haiyang Pan
Zhengyang Cai
Yue Zhao
Yue Zhao
Bilu Liu
Hui-Ming Cheng
Hui-Ming Cheng
Confined van der Waals Epitaxial Growth of Two-Dimensional Large Single-Crystal In2Se3 for Flexible Broadband Photodetectors
Research
author_facet Lei Tang
Changjiu Teng
Yuting Luo
Usman Khan
Haiyang Pan
Zhengyang Cai
Yue Zhao
Yue Zhao
Bilu Liu
Hui-Ming Cheng
Hui-Ming Cheng
author_sort Lei Tang
title Confined van der Waals Epitaxial Growth of Two-Dimensional Large Single-Crystal In2Se3 for Flexible Broadband Photodetectors
title_short Confined van der Waals Epitaxial Growth of Two-Dimensional Large Single-Crystal In2Se3 for Flexible Broadband Photodetectors
title_full Confined van der Waals Epitaxial Growth of Two-Dimensional Large Single-Crystal In2Se3 for Flexible Broadband Photodetectors
title_fullStr Confined van der Waals Epitaxial Growth of Two-Dimensional Large Single-Crystal In2Se3 for Flexible Broadband Photodetectors
title_full_unstemmed Confined van der Waals Epitaxial Growth of Two-Dimensional Large Single-Crystal In2Se3 for Flexible Broadband Photodetectors
title_sort confined van der waals epitaxial growth of two-dimensional large single-crystal in2se3 for flexible broadband photodetectors
publisher American Association for the Advancement of Science
series Research
issn 2639-5274
publishDate 2019-01-01
description The controllable growth of two-dimensional (2D) semiconductors with large domain sizes and high quality is much needed in order to reduce the detrimental effect of grain boundaries on device performance but has proven to be challenging. Here, we analyze the precursor concentration on the substrate surface which significantly influences nucleation density in a vapor deposition growth process and design a confined micro-reactor to grow 2D In2Se3 with large domain sizes and high quality. The uniqueness of this confined micro-reactor is that its size is ~102-103 times smaller than that of a conventional reactor. Such a remarkably small reactor causes a very low precursor concentration on the substrate surface, which reduces nucleation density and leads to the growth of 2D In2Se3 grains with sizes larger than 200 μm. Our experimental results show large domain sizes of the 2D In2Se3 with high crystallinity. The flexible broadband photodetectors based on the as-grown In2Se3 show rise and decay times of 140 ms and 25 ms, efficient response (5.6 A/W), excellent detectivity (7×1010 Jones), high external quantum efficiency (251%), good flexibility, and high stability. This study, in principle, provides an effective strategy for the controllable growth of high quality 2D materials with few grain boundaries.
url http://dx.doi.org/10.1155/2019/2763704
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