Efficient Charge Carrier Injection and Balance Achieved by Low Electrochemical Doping in Solution‐Processed Polymer Light‐Emitting Diodes

Efficient Charge Carrier Injection and Balance Achieved by Low Electrochemical Doping in Solution‐Processed Polymer Light‐Emitting Diodes

Charge carrier injection and transport in polymer light‐emitting diodes (PLEDs) is strongly limited by the energy level offset at organic/(in)organic interfaces and the mismatch in electron and hole mobilities. Herein, these limitations are overcome via electrochemical doping of a light‐emitting pol...

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Veröffentlicht in:Advanced functional materials 2019-10, Vol.29 (40), p.n/a
Hauptverfasser: Yan, Hao, Limbu, Saurav, Wang, Xuhua, Nightingale, James, Hamilton, Iain, Wade, Jessica, Kwon, Sooncheol, Lee, Kwanghee, Kim, Ji‐Seon
Format: Artikel
Sprache:eng
Schlagworte:
Carrier injection
charge injection and balance
Charge transport
Current carriers
Dependence
Diodes
Doping
electrochemical doping
Electroluminescence
Energy levels
Materials science
Organic light emitting diodes
organic semiconductors
Polymers
Raman spectroscopy
solid‐state ionic liquids
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Zusammenfassung:Charge carrier injection and transport in polymer light‐emitting diodes (PLEDs) is strongly limited by the energy level offset at organic/(in)organic interfaces and the mismatch in electron and hole mobilities. Herein, these limitations are overcome via electrochemical doping of a light‐emitting polymer. Less than 1 wt% of doping agent is enough to effectively tune charge injection and balance and hence significantly improve PLED performance. For thick single‐layer (1.2 µm) PLEDs, dramatic reductions in current and luminance turn‐on voltages (VJ = 11.6 V from 20.0 V and VL = 12.7 V from 19.8 V with/without doping) accompanied by reduced efficiency roll‐off are observed. For thinner (
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.201904092