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Results 1 to 25 of 8284

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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

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

4- vs. 5-phenylquinolinolate aluminum (III) isomersPEREZ-BOLIVAR, César; LLOVERA, Ligia; LOPEZ, Simón E et al.Journal of luminescence. 2010, Vol 130, Num 1, pp 145-152, issn 0022-2313, 8 p.Article

The use of a perylenediimide derivative as a dopant in hole transport layer of an organic light emitting deviceONER, Ilker; VARLIKLI, Canan; ICLI, Siddik et al.Applied surface science. 2011, Vol 257, Num 14, pp 6089-6094, issn 0169-4332, 6 p.Article

International Conference on Electroluminescence of Molecular Materials and Related PhenomenaTSUTSUI, T; KIDO, J.Synthetic metals. 1997, Vol 91, Num 1-3, issn 0379-6779, 395 p.Conference Proceedings

Light emitting devices based on sequentially adsorbed layers of poly(p-phenylene vinylene) (PPV) and poly(acrylic acid) (PAA)DURSTOCK, M. F; RUBNER, M. F.SPIE proceedings series. 1997, pp 126-131, isbn 0-8194-2570-2Conference Paper

Pyrazoline dimers for hole transport materials in organic electroluminescent devicesSANO, T; FUJII, T; HISHIO, Y et al.Japanese journal of applied physics. 1995, Vol 34, Num 6A, pp 3124-3127, issn 0021-4922, 1Article

Électroluminescence des matériaux organiques. TechnologiesLE BARNY, Pierre.Techniques de l'ingénieur. Matériaux fonctionnels. 2006, Vol N1, Num N407, issn 1776-0178, N407.1-N407.19, docN407.1 [20 p.]Article

L'électroluminescence = The electroluminescenceLE BARNY, Pierre.L' Actualité chimique (Paris. 1973). 2002, Num 3, pp 102-106, issn 0151-9093Article

BLUE AND VIOLET ELECTROLUMINESCENCE EMISSION IN ZNSEXS1-XMIS DIODESFAN XM; WOODS J.1982; PHYSICA STATUS SOLIDI. (A). APPLIED RESEARCH; ISSN 0031-8965; DDR; DA. 1982; VOL. 70; NO 1; PP. K27-K30; BIBL. 15 REF.Article

Enhanced quantum efficiency in polymer electroluminescence devices by inserting an ultrathin PMMA layerDENGHUI XU; ZHENBO DENG; XIUFANG LI et al.Applied surface science. 2007, Vol 253, Num 7, pp 3378-3381, issn 0169-4332, 4 p.Article

Green light-emitting devices based on soluble oligo(phenylenevinylenes)WONG, J. E; DETERT, H; BREHMER, L et al.Applied surface science. 2005, Vol 246, Num 4, pp 458-463, issn 0169-4332, 6 p.Article

ROLE DES PORTEURS CHAUDS DANS L'EXCITATION DE L'ELECTROLUMINESCENCE DES DIODES EN GANADONIN AS; EVMENENKO VA; KOSYACHENKO LA et al.1982; FIZIKA I TEHNIKA POLUPROVODNIKOV; ISSN 0015-3222; SUN; DA. 1982; VOL. 16; NO 10; PP. 1834-1837; BIBL. 13 REF.Article

Blue―green to near-IR switching electroluminescence from Si-rich silicon oxide/nitride bilayer structuresBERENCEN, Y; JAMBOIS, O; RAMIREZ, J. M et al.Optics letters. 2011, Vol 36, Num 14, pp 2617-2619, issn 0146-9592, 3 p.Article

Enhancement of electroplex emission by using multi-layer device structureWANG, Yuan-Min; FENG TENG; ZHENG XU et al.Applied surface science. 2005, Vol 243, Num 1-4, pp 355-359, issn 0169-4332, 5 p.Article

Cinétique d'électroluminescence de PbMg1/3Nb2/3O3 dans les champs électriques sinusoïdaux dans la région d'une transition de phase étaléeFLEROVA, S. A; KUDZIN, A. YU; BOCHKOV, O. E et al.Fizika tverdogo tela. 1989, Vol 31, Num 2, pp 123-127, issn 0367-3294Article

Organic electroluminescent materialsTORGOVA, Sofia; STRIGAZZI, Alfredo.Molecular crystals and liquid crystals science and technology. Section A, Molecular crystals and liquid crystals. 2002, Vol 375, pp 61-72, issn 1058-725XConference Paper

Electroluminescence in polymersYANG, Z; HU, B; KARASZ, F et al.Die Makromolekulare Chemie. Macromolecular symposia. 1997, pp 83-87, issn 0258-0322, isbn 3-85739-321-1Conference Paper

Progress in organic electroluminescent materials and device structuresSAITO, S; AMINAKA, E; TSUTSUI, T et al.Journal of luminescence. 1994, Vol 60-61, pp 902-905, issn 0022-2313Conference Paper

Several blue-emitting thin-film electroluminescent devicesMIURA, N; ISHIKAWA, T; SASAKI, T et al.Japanese journal of applied physics. 1992, Vol 31, Num 1A/B, pp L46-L48, issn 0021-4922, 2Article

DC ELECTROLUMINESCENCE IN NOVEL N-P SI/ZNS:MN HETEROSTRUCTURESGALLEGO JM; REEHAL HS; THOMAS CB et al.1983; IEEE TRANSACTIONS ON ELECTRON DEVICES; ISSN 0018-9383; USA; DA. 1983; VOL. 30; NO 5; PP. 475-479; BIBL. 5 REF.Article

Electroluminescence from a heterojunction bipolar transistorHAYES, J. R; LEHENY, R. F; TEMKIN, H et al.Applied physics letters. 1984, Vol 45, Num 5, pp 537-539, issn 0003-6951Article

On the mechanism of electron-impact-excited luminescence in AC thin film devices: ZnSe:MnMACH, R; MÜLLER, G. O; SCHULZ, G et al.Physica status solidi. A. Applied research. 1984, Vol 81, Num 2, pp 733-738, issn 0031-8965Article

A REFRESHED WRITE-THROUGH MODE FOR A DIRECT VIEW STORAGE TUBE WITH AN ELECTROLUMINESCENT FACEPLATESAHNI O.1982; ELECTRON DEVICE LETT.; ISSN 0193-8576; USA; DA. 1982; VOL. 3; NO 10; PP. 303-304; BIBL. 7 REF.Article

Synthesis and optical characterization of dypyrril-dicyano-benzene (DPDCB) for organic electroluminescent devicesGIRO, G; BERLIN, A; COCCHI, M et al.Synthetic metals. 1999, Vol 102, Num 1-3, issn 0379-6779, p. 1017Conference Paper

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