Additive fabrication techniques have opened new possibilities for the realization of sensors chambers of different shapes, to optimize performances. The objective of this work is to carry out a first experimental study to evaluate the poisoning effect of some new materials on commonly use MOX sensors. Effects of PEEK, 3D Print Resin and Silicone on TGS2610 and TGS2611 is investigated. Gas sensors response to different calibrants is recorded before and after sensors’ exposition to the materials, resulting in reduction of the response for Silicone and Resin, while PEEK do not affect sensors’ response.
Preliminary Study on the Poisoning Effect of Different Materials on MOX Sensors
b. j. lotesoriere;s. robbiani;a. m. tischer;lucia corra;e. zanni;l. capelli;raffaele dellaca
2024-01-01
Abstract
Additive fabrication techniques have opened new possibilities for the realization of sensors chambers of different shapes, to optimize performances. The objective of this work is to carry out a first experimental study to evaluate the poisoning effect of some new materials on commonly use MOX sensors. Effects of PEEK, 3D Print Resin and Silicone on TGS2610 and TGS2611 is investigated. Gas sensors response to different calibrants is recorded before and after sensors’ exposition to the materials, resulting in reduction of the response for Silicone and Resin, while PEEK do not affect sensors’ response.File in questo prodotto:
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