Improved Chemical Detection using Single-walled Carbon Nanotube Network Capacitors

Abstract

We explore capacitance- and conductance-based detection of trace chemical vapors using single-walled carbon nanotubes (SWNTs). We find that conductance detection is susceptible to such problems as large 1/f noise and incomplete sensor recovery, which are primarily artifacts of a charge-based transduction mechanism. Capacitance detection, dominated by dielectric effects, is less sensitive to charge effects and, thus, offers increased signal-to-noise ratio, improved sensor recovery, and larger dynamic range. Our data indicate capacitance-based sensing with SWNTs is well suited for trace-level detection of such low-vapor-pressure materials as certain chemical warfare agents and explosives.

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Document Details

Document Type
Technical Report
Publication Date
Sep 01, 2006
Accession Number
ADA574086

Entities

People

  • E. S. Snow
  • Frank Keith Perkins
  • J. A. Robinson

Organizations

  • United States Naval Research Laboratory

Tags

Communities of Interest

  • Advanced Electronics
  • Sensors

DTIC Thesaurus Topics

  • Amplifiers
  • Capacitance
  • Capacitors
  • Carbon Nanotubes
  • Charge Transfer
  • Chemical Detection
  • Detection
  • Detectors
  • Dynamic Range
  • Electric Fields
  • Fermi Levels
  • Fullerenes
  • Impedance
  • Materials
  • Measurement
  • Partial Pressure
  • Vapor Pressure

Fields of Study

  • Physics

Readers

  • Combustion science or combustion engineering.
  • Nanocomposite Materials Science
  • Sensor Fusion and Tracking Systems.