Solid-state electroluminescent devices based on transition metal complexes.
about
Tuning the Emission of Cationic Iridium (III) Complexes Towards the Red Through Methoxy Substitution of the Cyclometalating Ligand.Functional ruthenium(II)- and iridium(III)-containing polymers for potential electro-optical applications.Large Size Color-tunable Electroluminescence from Cationic Iridium Complexes-based Light-emitting Electrochemical Cells.Near-infrared phosphorescence: materials and applications.Principles of phosphorescent organic light emitting devices.Recent Progress in Ionic Iridium(III) Complexes for Organic Electronic Devices.Peripheral halo-functionalization in [Cu(N^N)(P^P)](+) emitters: influence on the performances of light-emitting electrochemical cells.Regioisomerism in cationic sulfonyl-substituted [Ir(C^N)2(N^N)](+) complexes: its influence on photophysical properties and LEC performance.From model compounds to protein binding: syntheses, characterizations and fluorescence studies of [RuII(bipy)(terpy)L]2+ complexes (bipy = 2,2'-bipyridine; terpy = 2,2':6',2''-terpyridine; L = imidazole, pyrazole and derivatives, cytochrome c).A theoretical study on supramolecularly-caged positively charged iridium(III) 2-pyridyl azolate derivatives as blue emitters for light-emitting electrochemical cells.Theoretical Investigations of the Photophysical Properties of Star-Shaped π-Conjugated Molecules with Triarylboron Unit for Organic Light-Emitting Diodes Applications.Photophysical properties of amphiphilic ruthenium(II) complexes in micelles.Microwave-assisted one-pot synthesis of new ionic iridium complexes of [Ir(bzq)2(N^N)]+A- type and their selected electroluminescent properties.Near Infrared Phosphorescent, Non-oxidizable Palladium and Platinum Perfluoro-phthalocyanines.A ruthenium tetrazole complex-based high efficiency near infrared light electrochemical cell.Non-doped solid-state white light-emitting electrochemical cells employing the microcavity effect.Rigid biimidazole ancillary ligands as an avenue to bright deep blue cationic iridium(iii) complexes.Emission energy of azole-based ionic iridium(III) complexes: a theoretical study.Phenyl substitution of cationic bis-cyclometalated iridium(iii) complexes for iTMC-LEECs.Low-voltage, high-brightness and deep-red light-emitting electrochemical cells (LECs) based on new ruthenium(ii) phenanthroimidazole complexes.Effect of free rotation in polypyridinic ligands of Ru(II) complexes applied in light-emitting electrochemical cells.Near-UV to red-emitting charged bis-cyclometallated iridium(III) complexes for light-emitting electrochemical cells.Improving the balance of carrier mobilities of host-guest solid-state light-emitting electrochemical cells.Efficient single-layer electroluminescent device based on a bipolar emitting boron-containing material.Can a functionalized phosphine ligand promote room temperature luminescence of the [Ru(bpy)(tpy)]2+ core?Dynamic doping and degradation in sandwich-type light-emitting electrochemical cells.Improving the carrier balance of light-emitting electrochemical cells based on ionic transition metal complexes.Creation of cationic iridium(III) complexes with aggregation-induced phosphorescent emission (AIPE) properties by increasing rotation groups on carbazole peripheries.High stability light-emitting electrochemical cells from cationic iridium complexes with bulky 5,5′ substituentsInfluence of cyclic versus acyclic oxygen-containing electron donor ancillary ligands on the photocurrent, photovoltage and photostability for high efficiency dye-sensitized solar cellsPush-Pull Design of Bis(tridentate) Ruthenium(II) Polypyridine Chromophores as Deep Red Light Emitters in Light-Emitting Electrochemical CellsIn situ identification of a luminescence quencher in an organic light-emitting deviceDetermination of the relative ligand-binding strengths in heteroleptic IrIII complexes by ESI-Q-TOF tandem mass spectrometryA deep-blue emitting charged bis-cyclometallated iridium(iii) complex for light-emitting electrochemical cellsEfficient solid-state white light-emitting electrochemical cells employing embedded red color conversion layersEfficient solid-state white light-emitting electrochemical cells based on phosphorescent sensitizationTailoring carrier injection efficiency to improve the carrier balance of solid-state light-emitting electrochemical cellsHighly efficient double-doped solid-state white light-emitting electrochemical cells
P2860
Q36288643-B16A7C0F-E664-4E48-AF70-B5100FBCE47EQ36771347-E85BB8C4-42FA-4E2A-A840-3BFA746B5C06Q36986210-0B4D8CC8-C9B5-4088-B43B-21D983CFB033Q38104999-73DE61C2-BD6D-43C9-A71F-15A58154C4AEQ38171988-BD2BF287-C9E3-4CDA-875C-CD5AEC015D19Q38792813-7DC631DF-57CF-44C3-B202-9F2489E954CBQ39316091-81213E3C-7C06-4EE5-B249-75BA4ECF2C3CQ39772311-CE327761-E8F0-4E6F-8AD0-EDB09E3B833DQ45199599-759BDB20-E208-4B3A-8AD8-A42282410FACQ45223097-ACD17EF8-2437-4F0B-965A-E900B20C112CQ45228765-F8AE1DA6-C7C3-4322-889B-12E5C59C2628Q45817592-31083391-C457-4195-BBAB-9D8BEE4626D0Q47957757-1641C9CC-E25F-4146-A670-BFD2408CE621Q48252902-65F9E939-E14F-4D1D-8643-6995D7E1E5A1Q50206543-6A4AE6DE-4237-4D79-A7FB-A3F9DDFC8400Q50217520-D71DC53A-52BD-4235-855E-274F1390CD2BQ50219563-A726C8E6-BE5A-4994-98F7-BBD08F2FF7FFQ50220424-21722532-BAF5-4E38-B30A-EF0AAD1F79D7Q50226004-D57DE84C-2030-4B7C-B02A-DADEC78D1D70Q50245763-D191E93E-B65D-469C-B634-18D4EDC9797DQ50486026-77213113-A852-4FD5-B7E7-5706CA8958C0Q50509461-C903CC67-AE66-4AD5-AABC-C2A796ED0234Q50521413-F34C04D2-461D-40DD-9948-3C2FCED307C4Q51294126-B2743745-3844-42BA-BA1B-7B85E0F00E06Q52731248-F39BD854-BF53-4863-BFD0-AE0CE50272F7Q53102381-CE0BCA9B-047D-44E6-86E8-25B4E0943812Q54492681-D2D0A83E-5151-43C0-8AD1-3A350840DB96Q54657671-3568CFC8-CCAF-4093-8BB0-70EB0F6D209AQ57086071-59ED876D-D0FA-41C0-B92D-EBC125D8B3C9Q57428701-E0464E1F-C3E1-45A4-9713-A56C77A9CD39Q58011533-7E4D66C7-0415-4EB9-9851-903F02FCDB7FQ58012356-89F8FB5D-8A78-4D90-9AB9-BC79FA62670BQ58385110-7BE3346F-57F1-42C4-BB61-662B0F56A0C5Q58864445-13EA5CBB-CA32-439C-BF91-DEE313C19A98Q59221601-4B372BC1-86BE-4CD2-B146-BFE4DAE919F2Q59221738-1B9C4E21-38F2-40F4-851F-D2724525B5E7Q59221771-48374890-3984-4D5A-B6C4-5E9D119F548EQ59221810-A1742C14-A1C0-443D-B286-6423BBFBEB95
P2860
Solid-state electroluminescent devices based on transition metal complexes.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Solid-state electroluminescent devices based on transition metal complexes.
@ast
Solid-state electroluminescent devices based on transition metal complexes.
@en
type
label
Solid-state electroluminescent devices based on transition metal complexes.
@ast
Solid-state electroluminescent devices based on transition metal complexes.
@en
prefLabel
Solid-state electroluminescent devices based on transition metal complexes.
@ast
Solid-state electroluminescent devices based on transition metal complexes.
@en
P2093
P2860
P356
P1476
Solid-state electroluminescent devices based on transition metal complexes
@en
P2093
Dan Bernards
George G Malliaras
Héctor D Abruña
Jason Slinker
Paul L Houston
P2860
P304
P356
10.1039/B304265K
P407
P577
2003-10-01T00:00:00Z