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Inorganic High-Performance Fiber-Based Materials for Electromagnetic Interference Shielding: Fundamentals,

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Summary
This summary is machine-generated.

Developing advanced inorganic high-performance fibers (IHPFs) with enhanced surface properties is crucial for effective electromagnetic interference (EMI) shielding. Surface modification strategies improve interfacial compatibility, enabling robust, multifunctional EMI shielding composites for demanding applications.

Keywords:
Atomic layer depositionElectromagnetic protectionElectromagnetic shieldingFuture challengesInorganic high-performance fibers/fabricsMechanism

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Electromagnetics

Background:

  • Increasing demand for effective electromagnetic interference (EMI) and electromagnetic radiation shielding in industrial, military, and aerospace sectors.
  • Inorganic high-performance fibers (IHPFs) offer lightweight, durable, and stable solutions for integrated EMI shielding systems.
  • Surface inertness and poor interfacial compatibility of most IHPFs limit their integration into high-performance composites.

Purpose of the Study:

  • To review surface modification strategies for IHPFs to enhance their electromagnetic shielding capabilities.
  • To explore methods for improving interfacial adhesion and long-term reliability of IHPF-based composites.
  • To summarize recent advances and future directions in functionalized IHPFs for EMI shielding and stealth applications.

Main Methods:

  • Review of "dry" and "wet" surface modification techniques for IHPFs.
  • Analysis of principles and processing methods for fabricating EMI shielding functional layers.
  • Summary of applications in EMI shielding protection and radar-absorbing stealth.

Main Results:

  • Surface modification enables robust functional layers on IHPFs, improving interfacial compatibility and adhesion.
  • Functionalized IHPFs demonstrate potential for high strength, modulus, and multifunctionality in composites.
  • Strategies address long-term service reliability and environmental stability of EMI shielding materials.

Conclusions:

  • Surface functionalization is key to unlocking the full potential of IHPFs for advanced EMI shielding.
  • Further research is needed for large-scale, stable applications in high-end fields.
  • Development of next-generation lightweight, sustainable, and multifunctional EMI shielding materials is accelerated.