Journal ArticleDOI
Co-nucleus 1D/2D Heterostructures with Bi2S3 Nanowire and MoS2 Monolayer: One-Step Growth and Defect-Induced Formation Mechanism
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TLDR
The one-step growth of a heterostructure on the basis of a 1D-Bi2S3 nanowire and a 2D-MoS2 monolayer through the CVD method is demonstrated to gain a better comprehension of these specific configurations and allow device functionalities in potential applications.Abstract:
Heterostructures constructed by low-dimensional (such as 0D, 1D, and 2D) materials have opened up opportunities for exploring interesting physical properties and versatile (opto)electronics. Recently, 2D/2D heterostructures, in particular, atomically thin graphene and transition-metal dichalcogenides, including graphene/MoS2, WSe2/MoS2, and WS2/WSe2, were efficiently prepared (by transfer techniques, chemical vapor deposition (CVD) growth, etc.) and systematically studied. In contrast, investigation of 1D/2D heterostructures was still very challenging and rarely reported, and the understanding of such heterostructures was also not well established. Herein, we demonstrate the one-step growth of a heterostructure on the basis of a 1D-Bi2S3 nanowire and a 2D-MoS2 monolayer through the CVD method. Multimeans were employed, and the results proved the separated growth of a Bi2S3 nanowire and a MoS2 sheet in the heterostructure rather than forming a BixMo1–xSy alloy due to their large lattice mismatch. Defect-in...read more
Citations
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Chemical Vapor Deposition Growth and Applications of Two-Dimensional Materials and Their Heterostructures
TL;DR: This review of the challenges in the CVD growth of 2D materials highlights recent advances in the controlled growth of single crystal 2Dmaterials, with an emphasis on semiconducting transition metal dichalcogenides.
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Recent advances on Bi2WO6-based photocatalysts for environmental and energy applications
TL;DR: In this article, a systematic review for the recent advances on Bi2WO6-based photocatalysts is provided, which starts with the crystal structure, optical properties, and photocatalysis fundamentals of Bi2wO6.
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Highly Anisotropic GeSe Nanosheets for Phototransistors with Ultrahigh Photoresponsivity.
TL;DR: 2D GeSe possesses black phosphorous‐analog‐layered structure and shows excellent environmental stability, as well as highly anisotropic in‐plane properties, and shows strong polarization‐dependent photoresponse with a peak/valley ratio of 1.3.
References
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Journal ArticleDOI
Single-layer MoS2 transistors
TL;DR: Because monolayer MoS(2) has a direct bandgap, it can be used to construct interband tunnel FETs, which offer lower power consumption than classical transistors, and could also complement graphene in applications that require thin transparent semiconductors, such as optoelectronics and energy harvesting.
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Van der Waals heterostructures
TL;DR: With steady improvement in fabrication techniques and using graphene’s springboard, van der Waals heterostructures should develop into a large field of their own.
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Boron nitride substrates for high-quality graphene electronics
Cory Dean,Andrea Young,Inanc Meric,Changgu Lee,Lei Wang,Sebastian Sorgenfrei,Kenji Watanabe,Takashi Taniguchi,Philip Kim,Kenneth L. Shepard,James Hone +10 more
TL;DR: Graphene devices on h-BN substrates have mobilities and carrier inhomogeneities that are almost an order of magnitude better than devices on SiO(2).
Journal ArticleDOI
From bulk to monolayer MoS2: evolution of Raman scattering
Hong Li,Qing Zhang,Chin Chong Yap,Beng Kang Tay,Teo Hang Tong Edwin,A. Olivier,Dominique Baillargeat +6 more
TL;DR: In this paper, it was shown that only the Raman frequencies of E 1 and A 1g peaks vary monotonously with the layer number of ultrathin Molybdenum disulfi de (MoS 2 ).
Journal ArticleDOI
Synthesis of Large‐Area MoS2 Atomic Layers with Chemical Vapor Deposition
Yi-Hsien Lee,Xin-Quan Zhang,Wenjing Zhang,Mu-Tung Chang,Cheng-Te Lin,Kai-Di Chang,Ya-Chu Yu,Jacob Tse-Wei Wang,Chia-Seng Chang,Lain-Jong Li,Tsung-Wu Lin +10 more
TL;DR: Optical, microscopic and electrical measurements suggest that the synthetic process leads to the growth of MoS(2) monolayer, and TEM images verify that the synthesized MoS (2) sheets are highly crystalline.