Abstract
In this letter, the microwave transmission properties of graphene grown by the chemical vapor deposition are studied by using a multiple-layer coplanar-waveguide transmission-line based measurement method. Remarkable energy loss and phase shift have been observed in graphene from the measured scattering parameters through vector network analyzer. The effective permittivity is deduced by partial-capacitance technique, and the complex permittivity of graphene are extracted in the frequency range of 500 MHz to 6 GHz. Different from conventional dielectric material, the permittivity of graphene shows frequency-dependent below 4 GHz and has an magnitude larger than 104 for both real and imaginary parts.
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