A CO2 sensor operating under high humidity

The development of a CO₂ sensor capable of operating in a highly humid atmosphere is desirable in order to preserve a clean environment in an airtight room, to apply to medical equipment such as a metabolic breathing system, etc.

The CO₂ sensor proposed here can monitor the CO₂ concentration, which equilibrates with water vapor, permitting the detection of CO₂ under high humidity. The sensing material was a composite film consisting of base-type poly(anthranilic acid) (PANA) and poly(vinyl alcohol) (PVA). The ac impedance was enhanced with increasing CO₂ concentration in a frequency region above 100 Hz.

A log–log plot of impedance versus CO₂ concentration obtained at the frequency of 100 kHz showed a good linear relationship in the concentration range between 3×10² and 1.5×10⁵ ppm under as high a relative humidity as 80%. The response curve of the composite film to CO₂ concentration was not affected by the presence of NH₃ and HCl in the concentration regions below 1000 and 10 ppm, respectively. Furthermore, no effect of coexisting gases such as O₂ and N₂O was observed at all for the linear relationship of the log–log plot of dc resistance versus CO₂ concentration.

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