Author
Listed:
- Jeehwan Kim
(IBM T. J. Watson Research Center)
- Can Bayram
(IBM T. J. Watson Research Center)
- Hongsik Park
(IBM T. J. Watson Research Center)
- Cheng-Wei Cheng
(IBM T. J. Watson Research Center)
- Christos Dimitrakopoulos
(IBM T. J. Watson Research Center
Present address: Department of Chemical Engineering, University of Massachusetts Amherst, 686 N. Pleasant St., Amherst, Massachusetts 01003, USA)
- John A. Ott
(IBM T. J. Watson Research Center)
- Kathleen B. Reuter
(IBM T. J. Watson Research Center)
- Stephen W. Bedell
(IBM T. J. Watson Research Center)
- Devendra K. Sadana
(IBM T. J. Watson Research Center)
Abstract
There are numerous studies on the growth of planar films on sp2-bonded two-dimensional (2D) layered materials. However, it has been challenging to grow single-crystalline films on 2D materials due to the extremely low surface energy. Recently, buffer-assisted growth of crystalline films on 2D layered materials has been introduced, but the crystalline quality is not comparable with the films grown on sp3-bonded three-dimensional materials. Here we demonstrate direct van der Waals epitaxy of high-quality single-crystalline GaN films on epitaxial graphene with low defectivity and surface roughness comparable with that grown on conventional SiC or sapphire substrates. The GaN film is released and transferred onto arbitrary substrates. The post-released graphene/SiC substrate is reused for multiple growth and transfer cycles of GaN films. We demonstrate fully functional blue light-emitting diodes (LEDs) by growing LED stacks on reused graphene/SiC substrates followed by transfer onto plastic tapes.
Suggested Citation
Jeehwan Kim & Can Bayram & Hongsik Park & Cheng-Wei Cheng & Christos Dimitrakopoulos & John A. Ott & Kathleen B. Reuter & Stephen W. Bedell & Devendra K. Sadana, 2014.
"Principle of direct van der Waals epitaxy of single-crystalline films on epitaxial graphene,"
Nature Communications, Nature, vol. 5(1), pages 1-7, December.
Handle:
RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms5836
DOI: 10.1038/ncomms5836
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