Research Output
Electromagnetic Nanoparticles for Sensing and Medical Diagnostic Applications
  A modeling and design approach is proposed for nanoparticle-based electromagnetic devices. First, the structure properties were analytically studied using Maxwell’s equations. The method provides us a robust link between nanoparticles electromagnetic response (amplitude and phase) and their geometrical characteristics (shape, geometry, and dimensions). Secondly, new designs based on “metamaterial” concept are proposed, demonstrating great performances in terms of wide-angle range functionality and multi/wide behavior, compared to conventional devices working at the same frequencies. The approach offers potential applications to build-up new advanced platforms for sensing and medical diagnostics. Therefore, in the final part of the article, some practical examples are reported such as cancer detection, water content measurements, chemical analysis, glucose concentration measurements and blood diseases monitoring

  • Type:

    Review

  • Date:

    13 April 2018

  • Publication Status:

    Published

  • Publisher

    MDPI AG

  • DOI:

    10.3390/ma11040603

  • Cross Ref:

    ma11040603

  • Library of Congress:

    QC Physics

  • Dewey Decimal Classification:

    530 Physics

  • Funders:

    Historic Funder (pre-Worktribe)

Citation

La Spada, L., & Vegni, L. (2018). Electromagnetic Nanoparticles for Sensing and Medical Diagnostic Applications. Materials, 11(4), 603. https://doi.org/10.3390/ma11040603

Authors

Keywords

metamaterials; nanoparticles; modeling; design; sensors; cancer detection; glucose measurements; medical diagnostics

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    Materials-11-00603

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    This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited (CC BY 4.0).

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