| Literature DB >> 34300463 |
Ada Fort1, Marco Mugnaini1, Enza Panzardi1, Anna Lo Grasso1, Ammar Al Hamry2, Anurag Adiraju2, Valerio Vignoli1, Olfa Kanoun2.
Abstract
This work proposes a model describing the dynamic behavior of sensing films based on functionalized MWCNT networks in terms of conductivity when exposed to time-variable concentrations of NO2 and operating with variable working temperatures. To test the proposed model, disordered networks of MWCNTs functionalized with COOH and Au nanoparticles were exploited. The model is derived from theoretical descriptions of the electronic transport in the nanotube network, of the NO2 chemisorption reaction and of the interaction of these two phenomena. The model is numerically implemented and then identified by estimating all the chemical/physical quantities involved and acting as parameters, through a model fitting procedure. Satisfactory results were obtained in the fitting process, and the identified model was used to further the analysis of the MWCNT sensing in dynamical conditions.Entities:
Keywords: Au nanoparticles; CNT gas sensing analytical model; MWCNT NO2 sensing; functionalized MWCNT; gas sensing conductivity model
Year: 2021 PMID: 34300463 DOI: 10.3390/s21144723
Source DB: PubMed Journal: Sensors (Basel) ISSN: 1424-8220 Impact factor: 3.576