Author
Listed:
- Wei Sun Leong
(Massachusetts Institute of Technology)
- Haozhe Wang
(Massachusetts Institute of Technology)
- Jingjie Yeo
(Tufts University
Massachusetts Institute of Technology
Institute of High Performance Computing, A*STAR, 1 Fusionopolis Way)
- Francisco J. Martin-Martinez
(Massachusetts Institute of Technology)
- Ahmad Zubair
(Massachusetts Institute of Technology)
- Pin-Chun Shen
(Massachusetts Institute of Technology)
- Yunwei Mao
(Massachusetts Institute of Technology)
- Tomas Palacios
(Massachusetts Institute of Technology)
- Markus J. Buehler
(Massachusetts Institute of Technology)
- Jin-Yong Hong
(Massachusetts Institute of Technology
Carbon Industry Frontier Research Center, Korea Research Institute of Chemical Technology)
- Jing Kong
(Massachusetts Institute of Technology)
Abstract
The performance and reliability of large-area graphene grown by chemical vapor deposition are often limited by the presence of wrinkles and the transfer-process-induced polymer residue. Here, we report a transfer approach using paraffin as a support layer, whose thermal properties, low chemical reactivity and non-covalent affinity to graphene enable transfer of wrinkle-reduced and clean large-area graphene. The paraffin-transferred graphene has smooth morphology and high electrical reliability with uniform sheet resistance with ~1% deviation over a centimeter-scale area. Electronic devices fabricated on such smooth graphene exhibit electrical performance approaching that of intrinsic graphene with small Dirac points and high carrier mobility (hole mobility = 14,215 cm2 V−1 s−1; electron mobility = 7438 cm2 V−1 s−1), without the need of further annealing treatment. The paraffin-enabled transfer process could open realms for the development of high-performance ubiquitous electronics based on large-area two-dimensional materials.
Suggested Citation
Wei Sun Leong & Haozhe Wang & Jingjie Yeo & Francisco J. Martin-Martinez & Ahmad Zubair & Pin-Chun Shen & Yunwei Mao & Tomas Palacios & Markus J. Buehler & Jin-Yong Hong & Jing Kong, 2019.
"Paraffin-enabled graphene transfer,"
Nature Communications, Nature, vol. 10(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-08813-x
DOI: 10.1038/s41467-019-08813-x
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