This paper presents a wireless, passive, remote query CO2 sensor
comprising a ribbon-like magnetoelastic thick-film coated with a
mass-changing CO2 responsive polymer synthesized from acrylamide and
isooctylacrylate.
In response to a magnetic field impulse, the magnetostrictive
magnetoelastic sensor vibrates at a characteristic resonant frequency
that is inversely dependent upon the mass of the attached CO2 responsive
polymer. The mechanical vibrations of the magnetostrictive sensor
launch magnetic flux, which can be detected remotely using a pickup
coil.
By monitoring the resonant frequency of the passive sensor, the
atmospheric CO2 concentration can be determined without the need for
physical connections to the sensor or specific alignment requirements.
The effect of humidity and the CO2 responsive copolymer composition on
the measurement sensitivity are reported. Greatest sensitivity is
achieved with a polymer comprising a 1:1 mole ratio of acrylamide to
isooctyl acrylate. A 0.7% change in atmospheric CO2 concentration can be
detected for a 20 microns thick polymer coated sensor.
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