Studying of spin-coated oxad-Si properties

• Autorzy: Weszka, J. , Dobrzański, L. A. , Jarka, P. , Jurusik, J. , Hajduk, B. , Bruma, M. , Konieczny, J. , Mańskowski, D.
• Języki publikacji: EN

Abstrakty

EN

Purpose: The major aim of this paper was describing technical conditions of polymer thin film deposition by spin-coating techniques. Design/methodology/approach: Thin films of about nanometres thickness were prepared by spin-coating and their properties were studied. As a material for preparing polymer thin films oxad-Si was used. The thin films were deposited with various spinning velocity from solution of different concentration. Thin films were deposited on BK7 glass and quartz substrates. Findings: The obtained results describe influence of the solution concentration and spinning velocity on morphology and optical properties of spin-coated oxad-Si thin films. Research limitations/implications: The obtained results confirm the oxad-Si availability for optoelectronic application to be stipulated. Practical implications: The morphology and optical properties of Oxad-Si polymer thin films were described. This paper include also description of the influence of deposition conditions on properties of polymer thin films. Originality/value: The value of this paper is defining the optimal parameters of spin-coating technology for preparing oxad-Si thin film with the best properties for optoelectronics appliances. This paper describes new experimental polymeric material for spin coating technology. Results of these researches enable to develop the spin-coating technology.

Słowa kluczowe

PL

oxad-Si; cienka warstwa; morfologia; mikroskopia (AFM); powłoka typu spin; pochłanianie

EN

oxad-Si; thin film; morphology; AFM microscopy; spin coating; absorbance

• Czasopismo: Journal of Achievements in Materials and Manufacturing Engineering
• Rocznik: 2009
• Tom: Vol. 37, nr 2
• Strony: 505-511
• Opis fizyczny: Bibliogr. 13 poz., rys., tabl.

Twórcy

autor

Weszka, J.

autor

Dobrzański, L. A.

autor

Jarka, P.

autor

Jurusik, J.

autor

Hajduk, B.

autor

Bruma, M.

autor

Konieczny, J.

autor

Mańskowski, D.

• Division of Materials Processing Technology, Management and Computer Techniques in Materials Science, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland,

Bibliografia

• [1] L. A. Dobrzanski, Fundamentals of material science and physicall matalurgy, WNT, Warsaw, 2006.
• [2] M. Żenkiewicz, Adhesion and topcoat modyfication of high-molecular plastics, WNT, Warsaw, 2000.
• [3] J. Tyczkowski, Thin films of plasma polymers, WNT, Warsaw, 1990.
• [4] W. Przygocki, A. Włochowicz, Polymers physics, PWN, Warsaw, 2001.
• [5] L. Wu, Thermal effects on liquid film dynamics in spin coating, Sensors and Actuators A: Physical A 134 (2007) 140-145.
• [6] H. Galina, Polimers physicochemistry, Rzeszow Uniwersity publishing house, Rzeszow 1998.
• [7] S. Kulaszewicz, Thin transparent electro conducting layers, using, properties, Bialystok University publishing house, Bialystok 1994.
• [8] S. Połomiński, Polymer physical chemistry, Lodz University publishing house, Lodz 2001.
• [9] J. Raczkowska, P. Cyganik, A. Budkowski, A. Bernasik, J. Rysz, I. Raptis, P. Czuba, K. Kowalski, Composition Effects in Polymer Blends Spin-Cast on Patterned Substrates, Macromolecules 38 (2005) 8486 8493.
• [10] W. Przygocki, Physical methods of polymers researching, PWN, Warsaw 1990.
• [11] M. Pluta, Microinterferometry in polar light: physical rudiments of birefractive microinterferometry, alliance and application, WNT, Warsaw 1990.
• [12] A. Cygański, Spectroscopic method in analytical chemistry, WNT, Warsaw 2002.
• [13] B. Hajduk, J. Weszka, J. Jurusik, Influence of LCVD technological parameters on properties of polyazomethine thin films, Journal of Achievements in Materials and Manufacturing Engineering 36/1(2009) 41-48.