Light-Weight Low-Loss Dielectric Polymer Composites Containing Carbon Nanostructure

Abstract

We report that conductive films made from hexadecylated graphene nanoribbons (HD-GNRs) can have high transparency to radiofrequency (RF) waves even at very high incident power density. Nanoscale-thick HD-GNR films with an area of several square centimeters were found to transmit up to 390 W (2 105 W/m2) of RF power with negligible loss, at an RF transmittance of ~99%. The HD-GNR films conformed to electromagnetic skin depth theory, which effectively accounts for the RF transmission. The HD-GNR films also exhibited sufficient optical transparency for tinted glass applications, with efficient voltage-induced deicing of surfaces. The dispersion of the HD-GNRs afforded by their edge functionalization enables spray , spin- or blade-coating on almost any substrate, thus facilitating flexible, conformal and large-scale film production. In addition to use in antennas and radomes where RF transparency is crucial, these capabilities bode well for the use of the HD-GNR films in automotive and general glass applications where both optical and RF transparencies are desired.

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Document Details

Document Type
Technical Report
Publication Date
Oct 17, 2014
Accession Number
ADA610696

Entities

People

  • James Tour

Organizations

  • Rice University

Tags

Communities of Interest

  • Advanced Electronics

DTIC Thesaurus Topics

  • Carbon Nanotubes
  • Chemical Synthesis
  • Chemical Vapor Deposition
  • Chemistry
  • Composite Materials
  • Energy
  • Graphitic Materials
  • Lithium Ion Batteries
  • Materials
  • Materials Laboratories
  • Materials Processing
  • Materials Science
  • Materials Testing
  • Nanocomposites
  • Radio Frequency
  • Radio Frequency Devices
  • Three Dimensional

Fields of Study

  • Physics

Readers

  • Atmospheric Remote Sensing.
  • Microwave Engineering.
  • Surface Coatings Technology.

Technology Areas

  • Microelectronics
  • Microelectronics - Graphene