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Abstrakty
In the paper, the influence of design and manufacturing technology on the performance of large-dimensional light-emitting elements with screen-printed luminophore are presented. The luminophore is based on Cu activated and Cl co-activated zinc sulphide ZnS. A particular instability when exposed to moisture and at rated electric load has been abserved.
Wydawca
Czasopismo
Rocznik
Tom
Strony
159--162
Opis fizyczny
Bibliogr. 18 poz., il., wykr.
Twórcy
autor
autor
autor
autor
- Institute of Electron Technology, Cracow Division, 39 Zabłocie Str., 30-701 Cracow, Poland, mciez@ite.waw.pl
Bibliografia
- 1. O.V. Lossev, "Wireless telegraphy and telephony", Telegraphy and Telephony 18, 61 (1923).
- 2. G. Destriau, "Analytical study of the conditions of excitation of the phenomena of electroluminescence", J. Chim. Phys. 34, 462 (1937).
- 3. G. Destriau, "Scintillation of zinc sulphide with a-rays", J. Chem. Phys. 33, 587 (1936).
- 4. G. Destriau, "The action of an electric field on photoluminescent materials", J. Chim. Phys. 34, 327 (1937).
- 5. A.G. Fischer, "Electroluminescence in II-VI compounds", in Luminescence of Inorganic Solids, edited by P. Goldberg, Academic Press, New York, 1966.
- 6. J.S. Prener and F.E. Williams, "Associated donor-acceptor luminescent centres", Phys. Rev. 101, 1427 (1956).
- 7. M. Dür, S.M. Goodnick, S.S. Pennathur, J.F. Wager, M. Reigrotzki, and R. Redmer, "High-field transport and electroluminescence in ZnS phosphors layers", J. Appl. Phys. 83, 3176 (1998).
- 8. Z. Porada and E. Schabowska, "AC electroluminescence of ZnS: Cu, Cl, and Mn thin films in the structure In2O3(Sn) – ZnS: Cu, Cl, Mn-SiOx-Al", J. Luminesc. 21, 129-135 (1980).
- 9. Z. Porada and E. Schabowska-Osiowska, "Surface electrical conductivity in ZnS(Cu,Cl,Mn) thin films", Thin Solid Films 145, 75-79 (1986).
- 10. M. Cież and Z. Porada, "Thick film electroluminescent lamps on ZnS, Cu base and their application in safety systems", Proc. SPIE 5566, 228-233 (2005).
- 11. M. Cież, A.M. Łukasik, W. Zaraska, and Z. Porada, "The influence of exploitation factors on brightness degradation in screenprinted electroluminescent layers", Proc. 13th Eur. Microelectronics and Packaging Conf. and Exhibition, Strasbourg, 1-4 (2001).
- 12. M. Cież, M.A. Łukasik, K. Witek, and W. Zaraska, "Comparison of electrooptical parameters in electroluminescent structures composed with various transparent electrodes", Proc. 27th Int. Conf. and Exhibition IMAPS-POLAND, Podlesice, 130-133 (2003).
- 13. Z. Porada, M. Cież, and W. Zaraska, "Electroluminescent lamps and the possibilities of their application in intelligent buildings", 3rd Int. Cong. on Intelligent Building Systems InBuS, Cracow, 2004.
- 14. B.L. Abrams., W.J. Thomes, J.S. Bang, and P.H. Holloway, "Degradation of nanoparticulate-coated and uncoated sulfide-based cathodoluminescent phosphors", Rev. Adv. Mater. Sci. 5, 139-146 (2003).
- 15. J.Ch. Lee and D.H. Park, "Self-defects properties of ZnS with sintering temperature", Materials Lett. 57, 2872-2878 (2003).
- 16. C.R. Ronda,"Phosphors for lamps and displays, an applicational view", J. Alloys and Comp. 225, 534-538 (1995).
- 17. L. Yorukova, K. Kolentsov, A. Rachkova, N. Koprinarov, G. Pchelarov, M. Konstantinova, and R. Stefanow, "Investigation of a.c. electroluminescent structures with fullerene inclusions", Synthetic Metals 37, 79-81 (2001).
- 18. K.A. Klinedinst, "Moisture insensitive electroluminescent phosphor", US Patent 6. 509.058 (2003).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWA9-0012-0006