Effect of Ultraviolet Activation on Sub-ppm NO 2 Sensing Dynamics of Poly(3-hexylthiophene)-Bearing Graft Copolymers.
Piotr KaluzynskiKinga KepskaMonika MaciuchErwin MaciakAgnieszka StolarczykMarcin ProcekTomasz JaroszPublished in: Sensors (Basel, Switzerland) (2022)
Nitrogen dioxide (NO 2 ) sensors utilising graft copolymers bearing poly(3-hexylthiophene) chains have been developed and investigated in terms of their operation parameters using different carrier gases (N 2 or air) and in either dark conditions or with ultraviolet (UV) irradiation. Interestingly, sensor performance improved upon transition from N 2 to air, with the inverse being true for most NO 2 sensors. UV irradiation both improved sensor dynamics and stabilised the sensor electrical baseline, allowing sensors based on SilPEG to fulfil the requirements of sensing solutions used in industry (below 10% baseline drift after sensors reach saturation) and making them promising candidates for further development and applications. Based on conducted multi-variate experiments, an initial mechanism underlying the interplay of exposure to oxygen (present in air) and UV irradiation was postulated.