IEEE Open Journal of Nanotechnology (Jan 2020)

Microwave Power Detection With Voltage-Gated Graphene

  • Michael R. Gasper,
  • Ryan C. Toonen,
  • Nicholas C. Varaljay,
  • Robert R. Romanofsky,
  • Felix A. Miranda

DOI
https://doi.org/10.1109/OJNANO.2020.2995262
Journal volume & issue
Vol. 1
pp. 25 – 30

Abstract

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Commercially available, chemical vapor deposition grown, graphene has been used to realize voltage-gate tunable, microwave power detectors. Corbino disc structures with chrome/gold contacts have been fabricated on top of graphene deposited on P-type silicon substrates with silicon dioxide gate oxides. Devices of varying sizes were used to detect a 433.92 MHz signal. These test structures exhibited a peak power detection sensitivity of 3.25 mV/mW at 292 K and 5.43 mV/mW at 80 K. The improved graphene detectors exceed the sensitivity of previously reported graphene detectors, 0.86 mV/mW, as well as previously explored carbon nanotube bolometers, 0.36 mV/mW.

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