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NANOMATERIALS AND NANOTECHNOLOGY
ArticleName Optimization of technological regimes of formation of gas–sensing nanocomposite material based on polyacrylonitrile by method of neural network modeling
ArticleAuthor Lu Ping, T. V. Semenistaya, K. A. Aghabekyan, N. K. Plugotarenko, A. N. Korolev
ArticleAuthorData

Technological institute of southern Federal university in g. Taganrog

Lu Ping, T. V. Semenistaya, K. A. Aghabekyan, N. K. Plugotarenko, A. N. Korolev
Abstract

Samples of conductive films based on polyacrylonitrile (PAN) were obtained. Resistance was measured and values of sensor response of the obtained samples were calculated. The computer experiment using the method of neural network modeling in matlab was done. The target parameter of modeling was a factor of the gas sensitivity.
keywords Functional conducting organic polymers, gas−sensing materials, the method of neural network modeling
References

1. Bochenkov, V. E. Nanomaterialy dlya sensorov / V. E. Bochenkov, G. B. Sergeev // Uspekhi khimii. − 2007. − T. 76, № 11. − S. 1084—1091.
2. Al'−Khadrami, I. S. Issledovanie gazochuvstvitel'nykh svoystv med'soderzhashchego poliakrilonitrila / I. S. Al'−Khadrami, A. N. Korolev, T. V. Semenistaya, T. N. Nazarova, V. V. Petrov // Izv. vuzov. Elektronika. − 2008. − № 1. − S. 20—25.
3. Holliday, B. J. Chemoresistive gas−phase nitric oxide sensing with cobalt−containing metallopolymers / B. J. Holliday, T. B. Standford, T. M. Swager // Chem. Mater. − 2006. − V. 18. − P. 5649—5651.
4. Dixt, V. Carbon monoxide sensitivity of vacuum deposited polyaniline semiconducting thin films / V. Dixt, S. C. K. Misra, B. S. Sharma // Sensor and Actuators B. − 2005. − V. 100. − P. 90—93.
5. Korolev, A. N. Nanokompozitnye plenki med'soderzhashchego poliakrilonitrila: sostav, struktura, morfologiya poverkhnosti / A. N. Korolev, T. V. Semenistaya, I. S. Al'−Khadrami, T. P. Loginova, M. Bruns // Perspektivnye materialy. − 2010. − № 5. − S. 52—56.
6. Jing, M. Chemical structure evolution and mechanism during pre−carbonization of PAN−based stabilized fiber in the temperature range of 350—600 °C. / M. Jing, C. Wang, Q. Wang, Y. Bai, B. Zhu // Polymer Degradation and Stability. − 2007. − V. 92. − P. 1737—1742.
7. Lazarev, Yu. Modelirovanie protsessov i sistem v MATLAB / Yu. Lazarev. − S−Pb. : Piter, 2005. − 511 s.
8. Al'−Khadrami, I. S. Issledovanie elektroprovodnosti IK−pirolizovannogo med'soderzhashchego poliakrilonitrila / I. S. Al'−Khadrami, A. N. Korolev, L. M. Zemtsov, G. P. Karpacheva, T. V. Semenistaya // Izv. vuzov. Materialy elektron. tekhniki. − 2008. − № 1. − S. 14—17.
9. Li, R. W. C. Selective conductive polymer−based sensor for volatile halogenated organic compounds (VHOC) / R. W. C. Li, L. Ventura, J. Gruber, Y. Kawano, L. R. F. Carvalho // Sensors and Actuators B. − 2008. − V. 131. − P. 646—651.
10. Petrov, V. V. Avtomatizirovannyy stend dlya kalibrovki sensorov gaza / V. V. Petrov // Tez. dokl. I Mezhd. nauch.−tekhn. konf. «Sensornaya elektronika i mikrosistemnye tekhnologii». − Odessa (Ukraina), 2004. − S. 288—289.
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