Tunable Electrical Conductivity of Individual Graphene Oxide Sheets Reduced at “Low” Temperatures
Northwestern University · The University of Texas at Austin
Abstract
Step-by-step controllable thermal reduction of individual graphene oxide sheets, incorporated into multiterminal field effect devices, was carried out at low temperatures (125-240 degrees C) with simultaneous electrical measurements. Symmetric hysteresis-free ambipolar (electron- and hole-type) gate dependences were observed as soon as the first measurable resistance was reached. The conductivity of each of the fabricated devices depended on the level of reduction (was increased more than 10(6) times as reduction progressed), strength of the external electrical field, density of the transport current, and temperature.
Citation impact
- FWCI
- 25.91
- Percentile
- 100%
- References
- 43
Authors
4- IJInhwa JungCorresponding
Northwestern University, The University of Texas at Austin
- DADmitriy A. Dikin
The University of Texas at Austin, Northwestern University
- RDRichard D. Piner
Northwestern University, The University of Texas at Austin
- RSRodney S. Ruoff
Northwestern University, The University of Texas at Austin
Topics & keywords
- Graphene
- Ambipolar diffusion
- Materials science
- Hysteresis
- Electrical resistivity and conductivity
- Oxide
- Conductivity
- Optoelectronics
- Affordable and clean energy