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Related Concept Videos

Diamagnetic Shielding of Nuclei: Local Diamagnetic Current01:14

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An applied magnetic field causes the electrons present in the molecule to circulate, setting up a local diamagnetic current within the molecule. The local diamagnetic current arising from circulating sigma-bonding electrons induces a magnetic field, Blocal that opposes the applied magnetic field, B0. The effective magnetic field experienced by these nuclei is given by the difference between the applied and local magnetic fields in a phenomenon called local diamagnetic shielding. Essentially,...
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The existence of combined electric and magnetic fields that propagate through space as electromagnetic (EM) waves is the most significant prediction of Maxwell's equations. As Maxwell's equations hold in free space, the predicted electromagnetic waves do not require a medium for their propagation. An EM wave comprises an electric field, defined as the force per charge on a stationary charge, and a magnetic field, which is the force per charge on a moving charge.
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Updated: Jul 19, 2025

Scalable Solution-processed Fabrication Strategy for High-performance, Flexible, Transparent Electrodes with Embedded Metal Mesh
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Emerging Two-Dimensional Materials for Electromagnetic Interference Shielding Application.

Suman Kumari1, Jasvir Dalal1, Vibhor Kumar2

  • 1Department of Physics, Chaudhary Ranbir Singh University, Jind 126102, India.

International Journal of Molecular Sciences
|August 12, 2023
PubMed
Summary
This summary is machine-generated.

Two-dimensional materials, including graphene, offer excellent electromagnetic interference (EMI) shielding. Researchers are exploring advanced 2D materials to further enhance EMI shielding for modern electronics.

Keywords:
EMI shieldingMXenegrapheneshielding mechanismtwo-dimensional materials

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Area of Science:

  • Material Science
  • Condensed Matter Physics
  • Electrical Engineering

Background:

  • Graphene, the first 2D material, exhibits exceptional properties like high conductivity and large surface area.
  • These properties make graphene highly effective for electromagnetic interference (EMI) shielding, driving extensive research.
  • The success of graphene has spurred investigation into other 2D materials for improved EMI shielding.

Purpose of the Study:

  • To review the current advancements in 2D materials for EMI shielding.
  • To identify future research directions and challenges in developing effective EMI shielding solutions.

Main Methods:

  • Literature review of recent studies on 2D materials for EMI shielding.
  • Analysis of the properties of various 2D materials relevant to EMI shielding.
  • Synthesis of current progress and future outlooks.

Main Results:

  • Graphene and other 2D materials show significant promise for EMI shielding applications.
  • Diverse 2D materials like MXenes and transition metal dichalcogenides offer enhanced shielding capabilities.
  • The field is rapidly evolving with continuous improvements in material design and performance.

Conclusions:

  • Two-dimensional materials are crucial for addressing electromagnetic interference challenges in electronics.
  • Further research is needed to optimize material properties and explore novel 2D material combinations for superior EMI shielding.
  • Continued innovation in 2D materials will be key to meeting the demands of future electronic devices.