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Journal of Inorganic Materials, Volume. 39, Issue 8, 853(2024)

Research Progress on Modulation of Electromagnetic Performance through Micro-nanostructure Design

Jie HUANG, Liuying WANG*, Bin WANG*, Gu LIU, Weichao WANG, and Chaoqun GE
Author Affiliations
  • Zhijian Laboratory, Rocket Force University of Engineering, Xi’an 710025, China
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    AbstractGet PDF(in Chinese)
    Figures&Tables (10)
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    References (127)
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    Figures & Tables(10)
    Categorization and mechanisms of nanoscale electromagnetic wave-absorption materials
    1. Categorization and mechanisms of nanoscale electromagnetic wave-absorption materials

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    Three interactions occurring when electromagnetic waves are incident on the surface of medium: reflection, absorption, and transmission
    2. Three interactions occurring when electromagnetic waves are incident on the surface of medium: reflection, absorption, and transmission

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    Structure-property relationship of micro-nanostructures and electromagnetic performance
    3. Structure-property relationship of micro-nanostructures and electromagnetic performance

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    Element doping strategy for regulating material electron states
    4. Element doping strategy for regulating material electron states

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    Surface effect strategy for regulating electron states
    5. Surface effect strategy for regulating electron states

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    Nucleation-growth control strategy for regulating electron states
    6. Nucleation-growth control strategy for regulating electron states

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    Application of quantum dots in the field of electromagnetic wave absorption
    7. Application of quantum dots in the field of electromagnetic wave absorption

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    Application of nanocrystals in the field of electromagnetic wave absorption
    8. Application of nanocrystals in the field of electromagnetic wave absorption

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    Application of nanowires in the field of electromagnetic wave absorption
    9. Application of nanowires in the field of electromagnetic wave absorption

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    • Table 1. Micro-nanostructure modulation strategies and their corresponding relationships with quantum dots, nanocrystals, and nanowires

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      Table 1. Micro-nanostructure modulation strategies and their corresponding relationships with quantum dots, nanocrystals, and nanowires

      Micro-nano materialTypical featureMicro-nanostructure modulation strategyCommon features
      Quantum dots(a) Quantum confinement effect(b) Designable crystal structure(a) Defect engineering[99-100](b) Bandgap engineering[101⇓-103](c) Surface functionalization[105](d) Nucleation-growth control[20](a) High specific surface areaMicro-nano materials with high specific surface area enable surface functionalization, nucleation-growth control, and composite material design, thereby optimizing the electromagnetic performance of the materials.(b) Extremely small particle sizeNanostructure engineering has a significant impact on the physicochemical properties of nanomaterials, enabling their improvement.
      Nanocrystals(a) Designable crystal structure(b) Controllable crystal growth direction(a) Elemental doping[110](b) Heterojunction engineering[111](c) Defect engineering[112](d) Crystal facet control[31,113⇓ -115]
      Nanowires(a) High aspect ratio(b) High electron transmission rate(a) Heterojunction engineering[125](b) Composite material design[69,119 -120]
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    Jie HUANG, Liuying WANG, Bin WANG, Gu LIU, Weichao WANG, Chaoqun GE. Research Progress on Modulation of Electromagnetic Performance through Micro-nanostructure Design[J]. Journal of Inorganic Materials, 2024, 39(8): 853

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    Paper Information

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    Received: Dec. 21, 2023

    Accepted: --

    Published Online: Dec. 12, 2024

    The Author Email: WANG Liuying (lywangxa@163.com), WANG Bin (wangbin403403@126.com)

    DOI:10.15541/jim20230589

    Topics

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