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Journal of Inorganic Materials, Volume. 39, Issue 5, 554(2024)

Growth and Characterization of Large-size InSe Crystal from Non-stoichiometric Solution via a Zone Melting Method

Min JIN1, Yupeng MA2, Tianran WEI2, Siqi LIN1, Xudong BAI3, Xun SHI4, and Xuechao LIU4、*
Author Affiliations
  • 11. School of Materials Science, Shanghai Dianji University, Shanghai 201306, China
  • 22. School of Materials Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
  • 33. Wuzhen Laboratory, Tongxiang 314500, China
  • 44. Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China
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    Figures & Tables(7)
    Crystal growth design(a) Dependence of weight percentage of In/Se elements on temperature; (b) Schematic diagram of zone melting method for InSe crystal growth
    1. Crystal growth design(a) Dependence of weight percentage of In/Se elements on temperature; (b) Schematic diagram of zone melting method for InSe crystal growth

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    In-Se binary phase diagram
    2. In-Se binary phase diagram

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    Results of as-grown ingot(a) Photo of as-grown ingot; (b) Powder XRD patterns of the middle and top parts of the ingot; (c) Transfer relationship between InSe and In4Se3 phases
    3. Results of as-grown ingot(a) Photo of as-grown ingot; (b) Powder XRD patterns of the middle and top parts of the ingot; (c) Transfer relationship between InSe and In4Se3 phases

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    Characteriation of obtained single crystals(a) Large area slab-like InSe crystal cleaved from the ingot; (b) XRD pattern of (001) cleavage plane; (c) Fresh flake disclosed by tweezers; (d) SEM image of (001) plane; (e) Area scan and (f) line scan by EDS
    4. Characteriation of obtained single crystals(a) Large area slab-like InSe crystal cleaved from the ingot; (b) XRD pattern of (001) cleavage plane; (c) Fresh flake disclosed by tweezers; (d) SEM image of (001) plane; (e) Area scan and (f) line scan by EDS

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    Optical characterizations of InSe crystal(a) Transmittance spectrum; (b) Band gap energy Eg
    5. Optical characterizations of InSe crystal(a) Transmittance spectrum; (b) Band gap energy Eg

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    Transport properties under different temperatures(a) Electrical conductivity σ; (b) Thermal diffusion D and thermal conductivity κColorful figures are available on website
    6. Transport properties under different temperatures(a) Electrical conductivity σ; (b) Thermal diffusion D and thermal conductivity κColorful figures are available on website

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    • Table 1.

      Growth results of InSe crystals by different methods in the past years

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      Table 1.

      Growth results of InSe crystals by different methods in the past years

      AuthorYearCountryMethodn(In) : n(Se) Crystal sizeRef.
      Damon R W et al.1954USAStockbarger1 : 1ϕ10 mm×20 mm[28]
      Andriyashik M V et al.1968UkraineCzochralski1 : 1ϕ20 mm×(40-50) mm[29]
      Chevy A et al.1977FranceVertical Bridgman0.56 : 0.44ϕ14 mm×30 mm[30]
      Chevy A et al.1978FranceCzochralski0.56 : 0.441 mm×25 mm×65 mm[13]
      Chevy A1981FranceChemical transport1 : 10.3 mm×0.3 mm×0.1 mm[31]
      Imai K et al.1981JapanVertical Bridgman0.52 : 0.48ϕ10 mm×50 mm[21]
      Blasi C D et al.1982ItalyVertical Bridgman0.52 : 0.48ϕ10 mm[32]
      Chevy A1984FranceModified Bridgman0.56 : 0.44ϕ10 mm[33]
      Tribloulet R et al.1986FranceTravelling heater0.52 : 0.48ϕ15 mm×60 mm[34]
      Ishii T1988JapanVertical Bridgman0.52 : 0.48ϕ10 mm[27]
      Gurbulak B1999TurkeyFreezing method1 : 1ϕ12 mm×60 mm[35]
      Icelli O et al.2004TurkeyStockbarger1 : 1ϕ12 mm×60 mm[36]
      Gurbulak B et al.2014TurkeyBridgman-Stockbarger1 : 1ϕ10 mm×60 mm[37]
      Wei T R et al.2020ChinaVertical Bridgman0.52 : 0.48ϕ25 mm×75 mm[10]
      Zhang B et al.2021ChinaVertical Bridgman1 : 1ϕ14 mm×40 mm[16]
      Shi H et al.2021ChinaVertical Bridgman1 : 1ϕ12.7 mm×12 mm[24]
      Jin M et al.2023ChinaZone melting method0.52 : 0.48ϕ27 mm×130 mmThis work
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    Min JIN, Yupeng MA, Tianran WEI, Siqi LIN, Xudong BAI, Xun SHI, Xuechao LIU. Growth and Characterization of Large-size InSe Crystal from Non-stoichiometric Solution via a Zone Melting Method [J]. Journal of Inorganic Materials, 2024, 39(5): 554

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    Paper Information

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    Received: Nov. 9, 2023

    Accepted: --

    Published Online: Jul. 8, 2024

    The Author Email: LIU Xuechao (xcliu@mail.sic.ac.cn)

    DOI:10.15541/jim20230524

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology