Electric and Optical Properties of Polyimide Surface Films Modified by Metals
DOI:
https://doi.org/10.18321/ectj330Abstract
Electric and optical properties of polymer films, which were prepared on the basis of polyimides and metallized by binary aggregates Ag with Ni and Co, have been investigated. The metallized polyimide films with additional coating from Ni, Au and Rh have been studied too. It has been found that the temperature dependence of the specific surface resistance in the metallized films at the temperature from 25 up to 160 °C was in the well agreement with linear law. The specific surface resistance at 20 °C and temperature coefficient showed low values and was 0.16-2.24 Ω and 0.69×10-4-19.18×10-4 K-1 respectively. The film reflection coefficient in visible spectrum field at wavelength of 530 nm was 75% and essentially enlarged with wavelength increasing.
References
(2). Shakauskas M., Vyashkyalis A. Chimicheskaya metallizatsiya plastmass. Leningrad, Chimia, 1985. p. 114.
(3). Lee R.W., Viehbeck A. in Polyimides. Fundamental and applications. Grosh M.K., Mittal K.L. (ed.), NY, Plenum press, 1996, p. 912.
(4). Matienzo L.J., Unertl W.N. in Polyimides. Fundamental and applications. Ghosh M.K., Mittal K.L. (ed.) NY, Plenum press, 1996, p. 912.
(5). Kudaikulova S., Zainullina A., Boiko G., Zhubanov B., Abadie M.J.M. Sci. Israel - Technol Adv., 2(3-4):1 (2000).
(6). Kudaikulova S., Zainullina A., Boiko G., Zhubanov B., Vygodskii Ya., Abadie M.J.M. Sci. Israel - Technol Adv., 2(3-4):10 (2000).
(7). Syzdykova A., Kudaikulova S., Boiko G., Zhubanov B., Figovsky O., Sidorov V., Abadie M.J. M. Proc. STEPI V, 5-th Eur. Techn. Symp. Polyimides and High Performance Functional Polymers (Chemistry, Physics & Properties), 3-5 May 1999, Montpellier, France. M.J.M. Abadie (ed.), 2001, p. 200.
(8). Kudaikulova S. Izvestia NAS RK, Ser. Phys., 2002.
(9). Abadie M.J.M., Prikhodko O., Kudaikulova S., Boiko G., Zhubanov B., Voytekunas V. Proc. 2- nd Int. Symp. Polyimides and other high temperature polymers: synthesis, characterization and applications, 2001, Newark, USA.
(10). Prikhodko O., Kudaikulova S., Zhubanov B., Voytekunas V., Abadie M.J.M. Proc. STEPI VI Eur. Techn. Symp. Polyimides and High Performance Polymers, Montpellier, France, 14-16 May 2002.
(11). Koshkin N.I., Shirkevich M.G. Handbook on elementary Physics, Moscow, Nauka, 1988, p. 256.
(12). Tables of Physical Constants. Reference Book ed. by Academician Kikoin I.K., Moscow, Atomizdat, 1976, p. 1006.
(13). Masterov Yu.A., Saksonov Yu.V. Serebro, splavi i bimetalli na ego osnove. Moscow, Metallurgiya, 1979. p. 296.
(14). Southward R.E., Thompson D.W., Clair A.K. St. Chem. Mater. 9:1691 (1997).
(15). Southward R.E., Boggs C.M., Thompson D.W., Clair A.K. St. Chem. Mater. 10:1408 (1998).
(16). Blakemore J.S., Solid State Physics, Moscow, p. 608.
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