Abstract-Electric Properties of Graphene-Based Conductive Layers from DC Up To Terahertz Range

Pawel Kopyt, Bartlomiej Salski ; Przemyslaw Zagrajek ; Daniel Janczak ; Marcin Sloma ; Malgorzata Jakubowska ; Marzena Olszewska-Placha ; Wojciech Gwarek

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This paper describes results obtained using a hybrid measurement methodology employed to investigate electric properties of thin conductive layers based on graphene nanoplatelets in the frequency band spanning from dc up to terahertz range. As many as four different measurement methods were employed to cover the band of interest, including the terahertz time-domain spectroscopy and the Fourier-transform infrared spectroscopy besides resonator techniques applicable in the microwave band and the four-point dc technique. Raw measurement data obtained using these approaches were processed and based on the results a relationship between frequency and sheet resistance for various types of new graphene-based conductive layers was extracted. Eventually, several models that help to explain the observed behavior of each of the analyzed conductive inks were proposed.