Atomistic Observation of the Local Phase Transition in MoTe<sub>2</sub> for Application in Homojunction Photodetectors

Wang, Yalan; Zhang, Miao; Xue, Zhongying; Chen, Xinqian; Mei, Yongfeng; Chu, Paul K.; Tian, Ziao; Wu, Xing; Di, Zengfeng

doi:10.1002/smll.202200913

Cited by 14 publications

(17 citation statements)

References 71 publications

(107 reference statements)

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“…In this regard, the long-term stability of the modification strategy using QDs is an additional challenge . Most recently, strategies spanning local ferroelectric polarization, potential fluctuation engineering, dual-gate electrostatic modulation, selective-area atom sublimation, strain engineering, and dielectric engineering have been performed to incorporate in-plane homostructures within 2D channels to leverage a pronounced improvement in photosensitivity while sustaining a prompt response rate. Nevertheless, these approaches suffer from complicated microfabrication procedures.…”

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confidence: 99%

Dielectric Contrast Tailoring for Polarized Photosensitivity toward Multiplexing Optical Communications and Dynamic Encrypt Technology

et al. 2022

ACS Nano

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A selective-area oxidation strategy is developed to polarize high-symmetry 2D layered materials (2DLMs). The dichroic ratio of the derived O-WS2/WS2 photodetector reaches ∼8, which is competitive among state-of-the-art polarization photodetectors. Finite-different time-domain simulations consolidate that the polarization-sensitive photoresponse is associated with anisotropic spacial confinement, which gives rise to distinct dielectric contrasts for linearly polarized light of various directions and thus the polarization-dependent near-field distribution. Furthermore, selective-area oxidation treatment brings about dual effects, comprising the in situ formation of seamless in-plane WS2 homojunctions by thickness tailoring and the formation of out-of-plane O-WS2/WS2 heterojunctions. As a consequence, the recombination of photocarriers is markedly suppressed, resulting in outstanding photosensitivity with the optimized responsivity, external quantum efficiency, and detectivity of 0.161 A/W, 49.4%, and 1.4 × 1011 Jones for an O-WS2/WS2 photodetector in a self-powered mode. A scheme of multiplexing optical communications is revealed by harnessing the intensity and polarization state of light as independent transmission channels. Furthermore, dynamic encryption by leveraging the polarization state as a secret key is proposed. In the end, broad universality is reinforced through the induction of linear dichroism within 2D WSe2 crystals. On the whole, this study provides an additional perspective on polarization optoelectronics based on 2DLMs.

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confidence: 99%

Dielectric Contrast Tailoring for Polarized Photosensitivity toward Multiplexing Optical Communications and Dynamic Encrypt Technology

et al. 2022

ACS Nano

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“…Some shortcomings have been overcome by constructing vdW heterostructures while sacrificing part of detectable range and response speed. [351][352][353] Topological properties will also significantly affect the photoresponse in the photodetector. [360] In energy-moment space, Small 2022, 18, 2204380 linear dispersion of electron state results in the chiral Weyl cone structure.…”

Section: Photodetectorsmentioning

confidence: 99%

Two‐Dimensional Van Der Waals Topological Materials: Preparation, Properties, and Device Applications

Zhang

et al. 2022

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Over the past decade, 2D van der Waals (vdW) topological materials (TMs), including topological insulators and topological semimetals, which combine atomically flat 2D layers and topologically nontrivial band structures, have attracted increasing attention in condensed‐matter physics and materials science. These easily cleavable and integrated TMs provide the ideal platform for exploring topological physics in the 2D limit, where new physical phenomena may emerge, and represent a potential to control and investigate exotic properties and device applications in nanoscale topological phases. However, multifaced efforts are still necessary, which is the prerequisite for the practical application of 2D vdW TMs. Herein, this review focuses on the preparation, properties, and device applications of 2D vdW TMs. First, three common preparation strategies for 2D vdW TMs are summarized, including single crystal exfoliation, chemical vapor deposition, and molecular beam epitaxy. Second, the origin and regulation of various properties of 2D vdW TMs are introduced, involving electronic properties, transport properties, optoelectronic properties, thermoelectricity, ferroelectricity, and magnetism. Third, some device applications of 2D vdW TMs are presented, including field‐effect transistors, memories, spintronic devices, and photodetectors. Finally, some significant challenges and opportunities for the practical application of 2D vdW TMs in 2D topological electronics are briefly addressed.

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“…Schematic illustration of TM‐based electrocatalyst with advanced strategies covered in this review. Reproduced with permission from references [30–33]. Copyright 2022 Wiley, 2018 Wiley, 2016 Royal Society of Chemistry, 2021 Royal Society of Chemistry…”

Section: Introductionmentioning

confidence: 99%

Recent advances in transition metal‐based electrocatalysts for seawater electrolysis

Zhao

Sun

Meng

2022

Intl J of Energy Research

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Summary Low carbon‐footprint hydrogen generated from water splitting has attracted wide attention, which can satisfy future industrial requirements as a promising method. Compared with the scarcity of available freshwater, seawater splitting becomes worldwide research focus due to abundant seawater resources. Nevertheless, precious metal catalysts featured with high cost and low stability in seawater restrict its practical application. Recently, great progress of transition metals' (TM) compounds has been made toward seawater electrolysis, which made the process more practically feasible due to its abundant reserve and corrosion resistance. Therefore, it is necessary to understand the recent advances and challenges of TM‐based electrocatalysts in seawater; wherein few reviews have been reported so far. Herein, in this review, a comprehensive introduction of recently reported TM‐based electrocatalysts and advanced strategies for seawater electrolysis are provided. In particular, the challenges and perspectives of TM‐based electrocatalysts in the field of commercial application are briefly concluded at the end.

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Atomistic Observation of the Local Phase Transition in MoTe₂ for Application in Homojunction Photodetectors

Cited by 14 publications

References 71 publications

Dielectric Contrast Tailoring for Polarized Photosensitivity toward Multiplexing Optical Communications and Dynamic Encrypt Technology

Dielectric Contrast Tailoring for Polarized Photosensitivity toward Multiplexing Optical Communications and Dynamic Encrypt Technology

Two‐Dimensional Van Der Waals Topological Materials: Preparation, Properties, and Device Applications

Recent advances in transition metal‐based electrocatalysts for seawater electrolysis

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Atomistic Observation of the Local Phase Transition in MoTe2 for Application in Homojunction Photodetectors

Cited by 14 publications

References 71 publications

Dielectric Contrast Tailoring for Polarized Photosensitivity toward Multiplexing Optical Communications and Dynamic Encrypt Technology

Dielectric Contrast Tailoring for Polarized Photosensitivity toward Multiplexing Optical Communications and Dynamic Encrypt Technology

Two‐Dimensional Van Der Waals Topological Materials: Preparation, Properties, and Device Applications

Recent advances in transition metal‐based electrocatalysts for seawater electrolysis

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Atomistic Observation of the Local Phase Transition in MoTe₂ for Application in Homojunction Photodetectors