Sensitive Detection of a Gaseous Analyte with Low‐Power Metal–Organic Framework Functionalized Carbon Nanotube Transistors

  • chair:

    Kumar, S. / Dehm, S. / Wieland, L. / Chandresh, A. / Heinke, L. / Flavel, B. S. / Krupke, R. (2023)

  • place:

    Advanced Electronic Materials 2023, doi.org/10.1002/aelm.202300533

  • Date: Oktober 2023
  • Abstract

    A highly sensitive and low-power sensing platform for detecting ethanol molecules by interfacing high-purity, large-diameter semiconducting carbon nanotube transistors with a metal–organic framework layer is presented. The new devices outperform similar graphene-based metal–organic framework devices by several orders of magnitude in terms of sensitivity and power consumption, and can detect extremely low ethanol concentrations down to sub-ppb levels while consuming only picowatts of power. The exceptional sensor performance results from the nanotube transistor's high on/off ratio and its sensitivity to charges, allowing for ultra-low power consumption. The platform can also compensate for shifts in threshold voltage induced by ambient conditions, making it suitable for use in humid air. This novel concept of MOF/CNTFETs could be customized for detecting various gaseous analytes, leading to a range of ultra-sensitive and ultra-low power sensors.

     

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