Near-infrared electroluminescence of polymer light-emitting diodes doped with a lissamine-sensitized Nd3+ complex
- 9 April 2001
- journal article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 78 (15), 2122-2124
- https://doi.org/10.1063/1.1359782
Abstract
We report 890 nm luminescence from a neodymium-doped polymer light-emitting diode. The active layer is a blend of poly(dioctylfluorene-co-benzothiadiazole), F8BT, and a lissamine-functionalized terphenyl-based neodymium complex. We detect electroluminescence from both the lissamine (580 nm) and the Nd3 + complex (890 nm). By comparison with lissamine-free devices we show that the lissamine is crucial to infrared emission. The neodymium/lissamine luminescence intensity ratio is higher under electrical excitation than under optical excitation, showing that more triplets reach Nd3 + under electrical excitation. High turn-on voltages provide a clear indication for charge trapping onto the lissamine, and we consider direct triplet formation on the lissamine to be competing efficiently with respect to slower Dexter-type triplet transfer from the F8BT to the lissamineKeywords
This publication has 13 references indexed in Scilit:
- Infrared organic light emitting diodes using neodymium tris-(8-hydroxyquinoline)Journal of Applied Physics, 2000
- 1.54 μm infrared photoluminescence and electroluminescence from an erbium organic compoundJournal of Applied Physics, 2000
- Optical properties of lissamine functionalized Nd3+ complexes in polymer waveguides and solutionOptical Materials, 2000
- 1.54 μm electroluminescence from erbium (III) tris(8-hydroxyquinoline) (ErQ)-based organic light-emitting diodesApplied Physics Letters, 1999
- Harvesting Singlet and Triplet Energy in Polymer LEDsAdvanced Materials, 1999
- Erbium (III) tris(8-hydroxyquinoline) (ErQ): A potential material for silicon compatible 1.5 μm emittersApplied Physics Letters, 1999
- Indium–tin oxide treatments for single- and double-layer polymeric light-emitting diodes: The relation between the anode physical, chemical, and morphological properties and the device performanceJournal of Applied Physics, 1998
- Erbium-Doped Optical-Waveguide Amplifiers on SiliconMRS Bulletin, 1998
- Optical properties of erbium-doped organic polydentate cage complexesJournal of Applied Physics, 1998
- A study of neodymium-chelate-doped optical polymer waveguidesJournal of Applied Physics, 1996