Sensor application and mathematical modeling of new Zn(II) phthalocyanine containing 26-membered tetraoxadithia macrocycle moieties
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2023Author
Baygu, YaseminÇapan, İnci
Çapan, Rifat
Erdoğan, Matem
Açıkbaş, Yaser
Kabay, Nilgün
Gök, Yaşar
Büyükkabasakal, Kemal
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A novel phthalonitrile containing 26-member tetraoxadithia macrocycle moiety was synthesized in a multistep
reaction sequence. New zinc(II) phthalocyanine was obtained by the cyclomerization reaction of this macrocyclic
phthalonitrile. The novel phthalocyanine and the precursor compounds have been characterized by a combination of 1
H and 13C NMR, FT-IR, UV–vis, elemental analysis and MALDI-TOF mass spectral data. 26-membered
phthalocyanine was used to fabricate multilayered Langmuir-Blodgett (LB) thin films dedicated to investigating
the gas sensing properties of these novel phthalocyanine materials. SEM images of the uncoated substrate, 8-
layered and 16-layered LB thin films were compared to observe the successfully transferred layer by layer
onto the solid substrates. Sensor parameters such as selectivity, reproducibility, thickness effect, recovery and
response rates were examined for highly toxic benzene and toluene vapors using the mass sensitive Quartz
Crystal Microbalance (QCM) technique. The first time the thickness effect on the gas sensing mechanism for
selected material was also investigated. Validation of the experimental measurements of QCM kinetic was
implemented using nonlinear autoregressive with exogenous input neural network for modelling using the frequency shift value. Comparison of these frequency shift of artificial neural network with real-experimental data
showed the accuracy of the artificial neural network model.