kw.\*:("Dispositif électroluminescent")
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Multiplication of carriers by impact ionizationXU XURONG; LEI GANG; XU ZHENG et al.Journal of crystal growth. 1992, Vol 117, Num 1-4, pp 935-938, issn 0022-0248Conference Paper
Luminance improvement of blue-green emitting SrS:Ce EL cell by controlling vacuum conditions with sulfur additionONISAWA, K; FUYAMA, M; TAGUCHI, K et al.Journal of the Electrochemical Society. 1988, Vol 135, Num 10, pp 2631-2634, issn 0013-4651Conference Paper
An AC thin-film EL display with Pr-Mn oxide black dielectric materialMATSUOKA, T; NASHIKAWA, M; TOHDA, T et al.I.E.E.E. transactions on electron devices. 1986, Vol 33, Num 9, pp 1290-1293, issn 0018-9383Article
A novel TFEL device using a high-dielectric-constant multilayer ceramic substrateSANO, Y; NUNOMURA, K; KOYAMA, N et al.I.E.E.E. transactions on electron devices. 1986, Vol 33, Num 8, pp 1155-1158, issn 0018-9383Article
Effects of indium diffusion on the properties of ZnSe: Mn dc thin-film electroluminescent devicesKOBAYASHI, M; MINO, N; KONAGAI, M et al.Journal of applied physics. 1985, Vol 57, Num 8, pp 2905-2908, issn 0021-8979, part 1Article
Realization of a large-area electroluminescent display with matrix addressing for full videoMILLER, M. R; SCHLAM, E; MORTON, D. C et al.Proceedings of the society for information display. 1987, Vol 28, Num 1, pp 31-35, issn 0734-1768Article
The powder DCEL mosaic matrix displayLIANXIANG ZHOU; XI LUO; XIONBIN CHUI et al.Proceedings of the society for information display. 1987, Vol 28, Num 1, pp 37-39, issn 0734-1768Article
Current and field characteristics and memory mechanism of TFEL devicesONNAGAWA, H; SHIBATA, M; MIYASHITA, K et al.Japanese journal of applied physics. 1986, Vol 25, Num 1, pp 12-16, issn 0021-4922, 1Article
Interference in thin radiating layers and its application to thin film electroluminescent devicesVLASENKO, A.Displays. 1984, Vol 5, Num 3, pp 135-141, issn 0141-9382Article
Hybrid organic light-emitting device with inorganic mobility-tunable hole transport layer of silicon-rich silicon oxideJIANG, D. F; YIN, Y; RAN, G. Z et al.Journal of the Optical Society of America. B, Optical physics (Print). 2011, Vol 28, Num 1, pp 89-92, issn 0740-3224, 4 p.Article
Physics and technology of thin films electroluminescent displaysMACH, R; MUELLER, G. O.Semiconductor science and technology. 1991, Vol 6, Num 5, pp 305-323, issn 0268-1242Article
Improvement of blue-light emission in amorphous carbon based electroluminescence deviceSHIMIZU, H; YOSHIMI, M; HATTORI, K et al.Journal of non-crystalline solids. 1991, Vol 137-38, pp 1275-1278, issn 0022-3093, 2Conference Paper
Organic electroluminescent device with a three-layer structureADACHI, C; TOKITO, S; TSUTSUI, T et al.Japanese journal of applied physics. 1988, Vol 27, Num 4, pp L713-L715, issn 0021-4922, 2Article
A computationally simple model for hysteretic thin-film electroluminescent devicesJAREM, J. M; SINGH, V. P.I.E.E.E. transactions on electron devices. 1988, Vol 35, Num 11, pp 1834-1841, issn 0018-9383, 1Article
Photodiode dans le violet en SiC-4HDMITRIEV, V. A; KOGAN, L. M; MOROZENKO, YA. V et al.Fizika i tehnika poluprovodnikov. 1989, Vol 23, Num 1, pp 39-43, issn 0015-3222Article
DC electroluminescence in ZnS (Cu,Mn) prepared by a successive vacuum deposition methodHASEGAWA, H; NAKAGAWA, S.Proceedings of the society for information display. 1987, Vol 28, Num 1, pp 27-30, issn 0734-1768Article
Microfabrication of electroluminescent polymer for devices constructionESTEVAM-ALVES, R; FERREIRA, P. H. D; ALMEIDA, G. F. B et al.Applied surface science. 2014, Vol 314, pp 633-637, issn 0169-4332, 5 p.Article
Characteristics of organic electroluminescent devices with new dopantsSATO, Y; OGATA, T; ICHINOSAWA, S et al.Synthetic metals. 1997, Vol 91, Num 1-3, pp 103-107, issn 0379-6779Conference Paper
Double-heterostructure electroluminescent device with cyanine-dye bimolecular layer as an emitterERA, M; ADACHI, C; TSUTSUI, T et al.Chemical physics letters. 1991, Vol 178, Num 5-6, pp 488-490, issn 0009-2614Article
Multimode fixed legend liquid crystal and electroluminescent displayMCDONNELL, D. G; KRÜGER, H. H; THEIS, D et al.Displays. 1985, Vol 6, Num 2, pp 67-69, issn 0141-9382Article
High-voltage polycrystalline-silicon TFT for addressing electroluminescent devicesUNAGAMI, T; TSUJIYAMA, B.Proceedings of the society for information display. 1984, Vol 25, Num 2, pp 117-121, issn 0734-1768Article
UNE METHODE DE MESURE DES HAUTES TENSIONSSHAPOSHNIKOV AN.1974; IZMERITEL. TEKH.; S.S.S.R.; DA. 1974; NO 4; PP. 65-66; BIBL. 3 REF.Article
SOURCES DE LUMIERE DE COURANT CONSTANT ELECTROLUMINESCENTES, A COUCHES, DE GRANDE LONGEVITEVLASENKO NA; GERGEL AN; SHKOLA AA et al.1972; POLUPROVODN. TEKH. MIKROELEKTRON., U.S.S.R.; S.S.S.R.; DA. 1972; NO 7; PP. 85-87; BIBL. 7 REF.Serial Issue
AN APPARATUS FOR MEASURING QUANTUM EFFICIENCY IN ELECTROLUMINESCENT DEVICES OVER A WIDE CURRENT RANGERALSTON JM.1972; REV. SCI. INSTRUM.; U.S.A.; DA. 1972; VOL. 43; NO 6; PP. 876-878; BIBL. 3 REF.Serial Issue
ELECTROLUMINESCENT LARGE-AREA IMAGE DISPLAYLEHMANN W.1980; DISPLAYS; GBR; DA. 1980; VOL. 2; NO 1; PP. 29-38; BIBL. 34 REF.Article