Surface Plasmon Resonance Phenomena and Its Application for Metalphthalocyanine Sensor Layers Investigations

Pustelny, T.; Ignac-Nowicka, J.; Opilski, Z.

Artykuł - szczegóły

Tytuł artykułu

Surface Plasmon Resonance Phenomena and Its Application for Metalphthalocyanine Sensor Layers Investigations

Autorzy

Pustelny T. , Ignac-Nowicka J. , Opilski Z.

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

The surface plasmon resonance spectroscopy is a technique that is capable of monitoring chemical and physical processes. It is sensitive to detect small changes of dielectric properties in a metal-phthalocyanine boundary. For this reason plasmon resonance phenomena have been used to characterize a number of different types of films. This work analyses the possibility of using the surface plasmon resonance phenomena in the detection of gas. Thin films of copper and lead phthalocyanines have been examined in the plasmon system from the point of view of their application in NO2 sensors.

Słowa kluczowe

surface plasmon resonance dioxide nitrogen detection phthalocyanine

Wydawca

Silesian Division of Polish Acoustical Society

Czasopismo

Molecular and Quantum Acoustics

Rocznik

2003

Tom

Vol. 24

Strony

47--60

Opis fizyczny

Bibliogr. 18 poz., rys.

Twórcy

autor

Pustelny T.

pustelny@zeus.polsl.gliwice.pl

Department of Optoelectronics, Silesian University of Technology, POLAND Gliwice, 2 Krzywoustego Str.

autor

Ignac-Nowicka J.

jnowicka@zeus.polsl.gliwice.pl

Department of Environment and Safety Management, Silesian University of Technology, Zabrze, 26-28 Roosvelta Str.

autor

Opilski Z.

Department of Optoelectronics, Silesian University of Technology, POLAND Gliwice, 2 Krzywoustego Str.

*Department of Optoelectronics, Silesian University of Technology, Poland Gliwice, 2 Krzywoustego Str, pustelny@zeus.polsl.gliwice.pl

Bibliografia

1. J. Ignac-Nowicka, ”Air polution monitoring at the workstand and in the ambient air", Molecular and Qantum Acoustics, vol 22, 113-121, (2001)
2. J. Ignac-Nowicka, T. Pustelny, "Monitoring methods of nitrogen dioxide", Molecular and Qantum Acoustics, vol 22, 171-182, (2001)
3. G.J. Ashwell, M.P.S. Roberts, "Highly selective surface plasmon resonance sensor for NO2", Electronics Letters, Vol. 32, No.22, 2089-2091, (1996).
4. E. Maciak, A. Opilski, Z. Opilski, "Surface plasmon resonance liquid sensor based on prism coupler in the Kretschmann geometry", Molecular and Quantum Acoustics, Vol. 21, 173-178, (2000).
5. E. Maciak, Z. Opilski, T. Pustelny, J. Ignac-Nowicka, "Examination of thin films of phthalocyanines from the point of view of their application in NO2 sensors", Molecular and Qantum Acoustics, vol 23, 253-269, (2002).
6. J. Homola, S.S. Yee, G. Gauglitz, "Surface plazmon resonance sensors: review", Sensors and Actuators, B 54, 3-15, (1999).
7. J. Ignac-Nowicka, T. Pustelny, E. Maciak, Z. Opilski, W. Jakubik, M. Urbańczyk, "Examination of thin films of phthalocyanines in plasmon system for their application in NO2 sensor", Optical Enginering, vol. 42, No. 10, 1-9, (2003).
8. B. Schollhorn, J.P. Germain, A. Pauly, C. Maleysson, J.P. Blanc, "Influence of peripheral electron-withdrawing substitutents on the conductivity of zinc phtalocyanine in the presence of gases. Part 1: reducing gases", Thin Solid Films, 326, 245-250, (1998).
9. D. Campbell, R.A. Collins, "A study of the interaction between nitrogen dioxide and lead phthalocyanine using electrical conduction and optical absorption", Thin Solid Films, 295, 277-282, (1997).
10. A. Mrwa, M. Friedrich, A. Hofmann, D.R.T. Zahn, "Response of lead phthalocyanine to high NO2 concentration", Sensors and Actuators B, 24-25, 596-599 (1995).
11. J. D. Wright, A. Cado, S. J. Peacock, V. Rivalle, A. M. Smith, "Effects of nitrogen dioxide on surface plasmon resonance of substituted phthalocyanine films" ,Sensors and Actuators B, 29, 108-114, (1995).
12. R.A. Collins, M.K.Ellis, T.A.Jones, "Sensitivity of lead phtalocyanine thin films to ammonia and nitrogen dioxide", Chemtronics, vol.5, 93-95, (1991).
13. T. Pustelny, B. Pustelny, "Investigation of electroluminophores for their practical application in fiber sensor technology", OPTO-ELECTRONICS Review, 10(3), 123-128, (2002).
14. Y.H. Ju, C. Hsieh, C.J. Liu, "The surface reaction and diffusion of NO2 in lead phthalocyanine thin film", Thin Solid Films, 342, 238-243, (1999).
15. E. Kretschmann, "The Determination of the Optical Constant of Metals by Excitation of Surface Plasmons", Z. Physik, 241, 313-324, (1971).
16. W. Gopel, K.D. Schirbaum, D.Schmeisser , “Prototype chemical sensors for the selective detection of O2 and NO2 in gases”, Sensors and Actuators 17, 377-384, (1989)
17. H. Mockert, D.Schmeisser, W. Gopel , “Lead phthalocyanine (PbPc) as a prototype organic material for gas sensors: comparative electrical and spectroscopic studies to optimise O2 and NO2 sensing”,. Sensors and Actuators 19, 159-176, (1989)
18. T. Pustelny, J. Ignac-Nowicka, Z. Opilski, Experimental Investigations of Thin Metalphthalocyanine Layers CuPc, PbPc, NiPc by Plasmon Resonance Method to Be Applied in NO2 - Sensors, Optica Applicata, will be published

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BUJ6-0008-0029