4.6 Article

Wafer-Scale Graphene Anodes Replace Indium Tin Oxide in Organic Light-Emitting Diodes

Journal

ADVANCED OPTICAL MATERIALS
Volume 10, Issue 3, Pages -

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/adom.202101675

Keywords

graphene; ITO replacement; metal-catalyst-free; MOCVD system; OLEDs; transfer-free; wafer-scale producibility

Funding

  1. Innovate UK [104714]
  2. Royal Society [UF140372, UF URF/R/201013]
  3. Innovate UK [104714] Funding Source: UKRI

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Graphene is considered as a promising material to replace Indium Tin Oxide (ITO) due to its high electrical conductivity, but a low-cost and scalable fabrication method is required for producing graphene with comparable performance to ITO. This study demonstrates the potential for graphene to be used as anodes in OLED devices, showing identical electrical and optical performances to conventional ITO anodes.
Indium tin oxide (ITO) is widely used for transparent electrode applications due to its high electrical conductivity and relatively straightforward deposition technology. However, there are long standing concerns for its use due to the limited availability of indium in the Earth's crust. Graphene is considered as a promising material for replacing ITO but for this to become possible, a low-cost and scalable fabrication method that produces graphene with comparable performance to ITO is required. By taking advantage of high-quality monolayer graphene directly deposited on a transparent substrate using a commercially available metal-organic chemical vapor deposition (MOCVD) system, graphene-based organic light-emitting diodes (OLEDs) without the use of metal catalysts or a graphene transfer process are developed. The as-grown graphene is patterned using photolithography and its conductivity is enhanced by doping with nitric acid prior to deposition of the OLED stack. The electrical and optical performances of the as-fabricated graphene-based OLEDs are identical to the control devices with conventional ITO anodes. All the processes used in the fabrication of graphene-based OLEDs can be performed at wafer scale. This paper demonstrates the potential for graphene to replace ITO as anodes in OLED devices in a technologically and commercially effective manner.

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