Add to ORKGLocal electrical imaging using microwave impedance microscope is performed on graphene in different modalities, yielding a rich hierarchy of the local conductivity. The low-conductivity graphite oxide and its derivatives show significant electronic inhomogeneity. For the conductive chemical graphene, the residual defects lead to a systematic reduction of the microwave signals. In contrast, the signals on pristine graphene agree well with a lumped-element circuit model. The local impedance information can also be used to verify the electrical contact between overlapped graphene pieces
We report a non-contact method for conductivity and sheet resistance measurements of monolayer and f...
The isolation of the two-dimensional material graphene, a single hexagonal sheet of carbon atoms, is...
The microwave transmission properties of printed graphene are studied by measuring different length ...
© 2016 AIP Publishing LLC. Characterization of micro-patterned chemical vapor deposited monolayer gr...
© 2018 Author(s). Impact of processing-induced structural defects on the electrical properties of a ...
Carrier transport parameters of graphene grown by chemical vapor deposition (CVD) and graphene-metal...
We report a study of the complex AC impedance of CVD grown graphene. We mea-sure the explicit freque...
Following the successful isolation of graphene in 2004 by Novoselov and Geim, a significant amount o...
In this work we describe the application of a dual-channel scanning probe microscope performing simu...
We propose a method to evaluate the electrical properties of nanoscale layered materials. This study...
Graphene is a remarkable material, which is yet to make the transition from unique laboratory phenom...
This paper investigates the electrical properties in the microwave range of a contact made by graphe...
Scanning microwave microscopy (SMM) is a novel metrological tool that advances the quantitative, nan...
Right from its successful isolation in 2004, Graphene has never failed to surprise people with its n...
Two-dimensional heterostructures composed of layers with slightly different lattice vectors exhibit ...
We report a non-contact method for conductivity and sheet resistance measurements of monolayer and f...
The isolation of the two-dimensional material graphene, a single hexagonal sheet of carbon atoms, is...
The microwave transmission properties of printed graphene are studied by measuring different length ...
© 2016 AIP Publishing LLC. Characterization of micro-patterned chemical vapor deposited monolayer gr...
© 2018 Author(s). Impact of processing-induced structural defects on the electrical properties of a ...
Carrier transport parameters of graphene grown by chemical vapor deposition (CVD) and graphene-metal...
We report a study of the complex AC impedance of CVD grown graphene. We mea-sure the explicit freque...
Following the successful isolation of graphene in 2004 by Novoselov and Geim, a significant amount o...
In this work we describe the application of a dual-channel scanning probe microscope performing simu...
We propose a method to evaluate the electrical properties of nanoscale layered materials. This study...
Graphene is a remarkable material, which is yet to make the transition from unique laboratory phenom...
This paper investigates the electrical properties in the microwave range of a contact made by graphe...
Scanning microwave microscopy (SMM) is a novel metrological tool that advances the quantitative, nan...
Right from its successful isolation in 2004, Graphene has never failed to surprise people with its n...
Two-dimensional heterostructures composed of layers with slightly different lattice vectors exhibit ...
We report a non-contact method for conductivity and sheet resistance measurements of monolayer and f...
The isolation of the two-dimensional material graphene, a single hexagonal sheet of carbon atoms, is...
The microwave transmission properties of printed graphene are studied by measuring different length ...