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    Journals >Journal of Infrared and Millimeter Waves >Volume 40 >Issue 3 >Page 302 > Article
    • Journal of Infrared and Millimeter Waves
    • Vol. 40, Issue 3, 302 (2021)
    Temperature-dependent photoresponse of monolayer MoS2 film grown by pulsed laser deposition
    Ming-Zhang XIE1, Liu-Meng LI1, Ming LI1, Yan YE1, Jin-Zhong ZHANG1, Kai JIANG1, Li-Yan SHANG1, Zhi-Gao HU1、2、*, and Jun-Hao CHU1、2
    Author Affiliations
  • 1Technical Center for Multifunctional Magneto-Optical Spectroscopy(Shanghai), Engineering Research;Center of Nanophotonics & Advanced Instrument(Ministry of Education), Department of Materials, School of Physics and Electronic Science, East China Normal University, Shanghai 200241, China
  • 2Shanghai Institute of Intelligent Electronics & Systems, Fudan University, Shanghai 200433, China
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    DOI: 10.11972/j.issn.1001-9014.2021.03.004 Cite this Article
    Ming-Zhang XIE, Liu-Meng LI, Ming LI, Yan YE, Jin-Zhong ZHANG, Kai JIANG, Li-Yan SHANG, Zhi-Gao HU, Jun-Hao CHU. Temperature-dependent photoresponse of monolayer MoS2 film grown by pulsed laser deposition[J]. Journal of Infrared and Millimeter Waves, 2021, 40(3): 302 Copy Citation Text show less
    References

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    [2] G R BHIMANAPATI, Z LIN, V MEUNIER et al. Recent Advances in Two-dimensional Materials Beyond Graphene. ACS Nano, 9, 11509-11539(2015).

    [3] D BURMAN, R GHOSH, S SANTRA et al. Role of Vacancy Sites and UV-ozone Treatment on Few Layered MoS2 Nanoflakes for Toxic Gas Detection. Nanotechnology, 28, 435502-435518(2017).

    [4] L WANG, J S JIE, Z B SHAO et al. MoS2/Si Heterojunction with Vertically Standing Layered Structure for Ultrafast, High-detectivity, Self-driven Visible-Near Infrared Photodetectors. Advanced Functional Materials, 25, 2910-2919(2015).

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    [7] J YANG, Y GU, E LEE et al. Wafer-scale Synthesis of Thickness-controllable MoS2 Films Via Solution-processing Using A Dimethylformamide/n-butylamine/2-aminoethanol Solvent System. Nanoscale, 7, 9311-9319(2015).

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    [9] W J JIE, Z B YANG, F ZHANG et al. Observation of Room-temperature Magnetoresistance in Monolayer MoS2 by Ferromagnetic Gating. ACS Nano, 11, 6950-6958(2017).

    [10] Y XIE, B ZHANG, S X WANG et al. Ultrabroadband MoS2 Photodetector with Spectral Response from 445 to 2 717 nm. Advanced Materials, 29, 1605972-(2017).

    [11] A GOSWAMI, P DHANDARIA, S PAL et al. Effect of Interface on Mid-infrared Photothermal Response of MoS2 Thin Film Grown by Pulsed Laser Deposition. Nano Research, 10, 3571-3584(2017).

    [12] C R SERRAO, A M DIAMOND, S L HSU et al. Highly Crystalline MoS2 Thin Films Grown by Pulsed Laser Deposition. Applied Physics Letters, 106, 052101(2015).

    [13] A ARULRAJ, M RAMESH, SUBRAMANIAN et al. In-situ Temperature and Thickness Control Grown 2D-MoS2 via Pulsed Laser Ablation for Photovoltaic Devices. Solar Energy, 174, 286-295(2018).

    [14] J LIU, A GOSWAMI, K JIANG et al. Direct-current Triboelectricity Generation by A Sliding Schottky Nanocontact on MoS2 Multilayers. Nature Nanotechnology, 13, 112-116(2018).

    [15] X M XU, Z W WANG, S LOPATIN et al. Wafer Scale Quasi Single Crystalline MoS2 Realized by Epitaxial Phase Conversion. 2D Materials, 6, 015030(2018).

    [16] M I SERNA, S H YOO, S MORENO et al. Large-area Deposition of MoS2 by Pulsed Laser Deposition with In Situ Thickness Control. ACS Nano, 10, 6054-6061(2016).

    [17] A BARVAT, N PRAKASH, B SATPATI et al. Emerging Photoluminescence from Bilayer Large-area 2D MoS2 Films Grown by Pulsed Laser Deposition on Different Substrates. Journal of Applied Physics, 122, 015304(2017).

    [18] L JIAO, W J JIE, Z B YANG et al. Layer-dependent Photoresponse of 2D MoS2 Films Prepared by Pulsed Laser Deposition. Journal of Materials Chemistry C, 7, 2522-2529(2019).

    [19] N A LANZILLO, A G BIRDWELL, M AMANI et al. Temperature-dependent phonon shifts in monolayer MoS2. Applied Physics Letters, 3, 056103(2015).

    [20] A MOLINA-SÁNCHEZ, M PALUMMO, A MARNI et al. Temperature-dependent excitonic effects in the optical properties of single-layer MoS2. Physical Review B, 93, 155435(2016).

    [21] Y F YU, G H NAM, Q Y HE et al. High Phase-purity 1T′-MoS2- and 1T′-MoSe2-layered Crystals. Nature Chemistry, 10, 638-643(2018).

    [22] D J LATE, P A SHAIKH, R KHARE et al. Pulsed Laser-deposited MoS2 Thin Films on W and Si: Field Emission and Photoresponse Studies. ACS Applied Materials& Interfaces, 6, 15881-15888(2014).

    [23] A BARVAT, N PRAKASH, G KUMAR et al. Electronic Structure of The PLD Grown Mixed Phase MoS2/GaN Interface and Its Thermal Annealing Effect. Current Applied Physics, 18, 170-177(2018).

    [24] X K ZHANG, Q L LIAO, S LIU et al. Poly(4-styrenesulfonate)-induced Sulfur Vacancy Self-healing Strategy for Monolayer MoS2 Homojunction Photodiode. Nature Communications, 8, 15881(2017).

    [25] S SEO, S KIM, H CHOI et al. Direct in Situ Growth of Centimeter‐Scale Multi‐Heterojunction MoS2/WS2/WSe2 Thin‐film Catalyst for Photo‐electrochemical Hydrogen Evolution. Advanced Science, 6, 1900301.

    [26] G SIEGEL, Y P V SUBBAIAH, M C PRESTGARD et al. Growth of Centimeter-scale Atomically Thin MoS2 Films by Pulsed Laser Deposition. APL Materials, 3, 056103(2015).

    [27] C G LEE, H G YAN, L E BRUS et al. Anomalous Lattice Vibrations of Single- and Few-Layer MoS2. ACS Nano, 4, 2695-2700(2010).

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    Ming-Zhang XIE, Liu-Meng LI, Ming LI, Yan YE, Jin-Zhong ZHANG, Kai JIANG, Li-Yan SHANG, Zhi-Gao HU, Jun-Hao CHU. Temperature-dependent photoresponse of monolayer MoS2 film grown by pulsed laser deposition[J]. Journal of Infrared and Millimeter Waves, 2021, 40(3): 302
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