Dimiev, Ayrat Zakhidov, Dante Genorio, Bostjan Oladimeji, Korede Crowgey, Benjamin Kempel, Leo Rothwell, Edward J. Tour, James M. Permittivity of Dielectric Composite Materials Comprising Graphene Nanoribbons. The Effect of Nanostructure New lightweight, flexible dielectric composite materials were fabricated by the incorporation of several new carbon nanostructures into a dielectric host matrix. Both the permittivity and loss tangent values of the resulting composites were widely altered by varying the type and content of the conductive filler. The dielectric constant was tuned from moderate to very high values, while the corresponding loss tangent changed from ultralow to extremely high. The data exemplify that nanoscale changes in the structure of the conductive filler result in dramatic changes in the dielectric properties of composites. A microcapacitor model most explains the behavior of the dielectric composites. dielectric composites;microcapacitor model;Dielectric Composite Materials Comprising Graphene Nanoribbons;dielectric host matrix;dielectric properties;carbon nanostructures;nanoscale changes;conductive filler;conductive filler result 2016-02-19
    https://acs.figshare.com/articles/journal_contribution/Permittivity_of_Dielectric_Composite_Materials_Comprising_Graphene_Nanoribbons_The_Effect_of_Nanostructure/2386855
10.1021/am401859j.s001