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Jeong, H.Y., Lee, D.-S., Choi, H.K., Lee, D.H., Kim, J.-E., Lee, J.Y., Lee, W.J., Kim, S.O. and Choi, S.-Y. (2010) Flexible Room-Temperature NO2 Gas Sensors Based on Carbon Nanotubes/Reduced Graphene Hybrid Films. Applied Physics Letters, 96, Article ID: 213105. http://dx.doi.org/10.1063/1.3432446

has been cited by the following article:

• TITLE: Room-Temperature Humidity Sensing Using Graphene Oxide Thin Films

  AUTHORS: Gautam Naik, Sridhar Krishnaswamy

  KEYWORDS: Graphene, Thin Film, Sensor, Humidity, Hysteresis

  JOURNAL NAME: Graphene, Vol.5 No.1, December 3, 2015

  ABSTRACT: In this article, we report on a room-temperature humidity sensing device using graphene oxide (GO) thin films synthesized by chemical exfoliation. Changes in the device conductivity are measured for varying relative humidity in the experimental chamber. Experiments are carried out for relative humidity varying from 30% to 95%. We observe a difference in the results obtained for low relative humidity (50%), and propose a sensing mechanism to explain this difference. Although the sensor exhibits some hysteresis at high relative humidities, a method to “reset” the sensor is also proposed. The sensing device has high sensitivity and fast response time.