At this point, exemplarily for the

At this point, exemplarily for the four commercially available
metal-oxide semiconductor gas sensors in test, the sensor GGS
5333 T from the Company UST Umweltsensortechnik GmbH shall be
discussed, because it will later be used for a correlation analysis to
the microbicidal effectiveness. More information on the characteristics
of the other metal-oxide semiconductor gas sensors can be
found in previous publications of the authors (Reisert, Geissler,
Fl€orke, N€ather, et al., 2011; Reisert et al., 2012). Similar to the
H2O2 sensor, the characteristics of the GGS 5333 T in terms of
sensitivity and specificity towards hydrogen peroxide (H2O2), the
humidity (H2O) and gas temperature (TGas), will be considered. In
order to investigate the response of the GGS 5333 T upon the
exposure of H2O2, exemplarily the measured data for different H2O2
concentrations but constant conditions in terms of humidity
(CH2O ¼ 15.1 %v/v) and gas temperature (TGas ¼ 150 C) will be
shown. Fig. 9 depicts the calibration plot of the GGS 5333 T for
different hydrogen peroxide concentrations. The represented
sensor signal of the GGS 5333 T in presence of H2O2 (R/R0GGS,H2O2)
was normalised to the resistance value in ambient air (R0).
The GGS 5333 T exhibits a linear relationship between its
resistance and the H2O2 concentration. Its characteristic can be
described by a linear function according to Equation (5):