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Molecular-scale interface engineering for polymer light-emitting diodes

Peter K. H. Ho, Ji-Seon Kim, Jeremy H. Burroughes, Heinrich Becker, Sam F. Y. Li, Thomas M. Brown, Franco Cacialli and Richard H. Friend ()
Additional contact information
Peter K. H. Ho: Cavendish Laboratory
Ji-Seon Kim: Cavendish Laboratory
Jeremy H. Burroughes: Cambridge Display Technology, Greenwich House
Heinrich Becker: Covion Organic Semiconductors
Sam F. Y. Li: National University of Singapore, and Institute of Materials Research and Engineering
Thomas M. Brown: Cavendish Laboratory
Franco Cacialli: Cavendish Laboratory
Richard H. Friend: Cavendish Laboratory

Nature, 2000, vol. 404, issue 6777, 481-484

Abstract: Abstract Achieving balanced electron–hole injection and perfect recombination of the charge carriers is central to the design of efficient polymer light-emitting diodes1,2 (LEDs). A number of approaches have focused on modification of the injection contacts, for example by incorporating an additional conducting-polymer layer at the indium-tin oxide (ITO) anode3,4. Recently, the layer-by-layer polyelectrolyte deposition route has been developed for the fabrication of ultrathin polymer layers5,6. Using this route, we previously incorporated ultrathin (

Date: 2000
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DOI: 10.1038/35006610

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