S. Stegmeier scite author profile

S. Stegmeier

5Publications

67Citation Statements Received

28Citation Statements Given

How they've been cited

154

How they cite others

Affiliations

Siemens (Germany)

Publications

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Mechanism of the interaction of CO2 and humidity with primary amino group systems for room temperature CO2 sensors

et al. 2009

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The use of primary amino groups as receptors to detect CO2 is promising because of their ability to perform reversible acid-base-reactions. In contrast to other sensitive materials using this effect, evaluable signals can be obtained even at ambient temperature. The effect discussed for most of the previously used sensing layers is the formation of bicarbonate species, which needs H2O as well as an increased temperature. The use of primary amino groups and work function readout appears to be dominated by another reaction, the reversible formation of carbamate, which does not require any water presence and, in addition to that, is more efficient at lower temperatures. To confirm this hypothesis, IR-, Raman-, XPS- and NMR-spectroscopy were used

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Influence of the morphology of platinum combined with β-Ga2O3 on the VOC response of work function type sensors

Stegmeier

Fleischer

Hauptmann

2010

Sensors and Actuators B: Chemical

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Sensing of CO2 at room temperature using work function readout of (hetero-)polysiloxanes sensing layers

Stegmeier

Fleischer

Tawil

et al. 2011

Sensors and Actuators B: Chemical

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Thermally activated platinum as VOC sensing material for work function type gas sensors

Stegmeier

Fleischer

Hauptmann

2010

Sensors and Actuators B: Chemical

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Sensing mechanism of room temperature CO2 sensors based on primary amino groups

Stegmeier¹,

Fleischer²,

Tawil³

et al. 2011

Sensors and Actuators B: Chemical

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S. Stegmeier

Mechanism of the interaction of CO2 and humidity with primary amino group systems for room temperature CO2 sensors

Influence of the morphology of platinum combined with β-Ga2O3 on the VOC response of work function type sensors

Sensing of CO2 at room temperature using work function readout of (hetero-)polysiloxanes sensing layers

Thermally activated platinum as VOC sensing material for work function type gas sensors

Sensing mechanism of room temperature CO2 sensors based on primary amino groups

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