Direct synthesis of single-crystal bilayer graphene on various dielectric substrates

Direct synthesis of single-crystal bilayer graphene on various dielectric substrates

In this work, a novel method to grow high-quality and large bilayer graphene (BLG) directly on various dielectric substrates was demonstrated. Large area single-crystal monolayer graphene was applied as a seeding layer to facilitate the homo-epitaxial synthesis of single crystal BLG directly on insu...

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Veröffentlicht in:arXiv.org 2022-04
Hauptverfasser: Chen, Xiangping, Xing, Xianqin, Liu, Wenyu, Lu, Zhanjie, Hao, Ying, Huang, Le, Zhang, Zhiyong, Wu, Shunqing, Cheng, Zhihai, Chen, Shanshan
Format: Artikel
Sprache:eng
Schlagworte:
Bilayers
Carrier mobility
Catalysis
Catalytic activity
Crystals
Epitaxial growth
Field effect transistors
Graphene
Metal surfaces
Room temperature
Semiconductor devices
Single crystals
Substrates
Synthesis
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Zusammenfassung:In this work, a novel method to grow high-quality and large bilayer graphene (BLG) directly on various dielectric substrates was demonstrated. Large area single-crystal monolayer graphene was applied as a seeding layer to facilitate the homo-epitaxial synthesis of single crystal BLG directly on insulating substrates. The Cu nano-powders (Cu NP) with nanostructure and high surface-area were used as the remote catalysis to provide long-lasting catalytic activity during the graphene growth. The TEM results confirmed the single-crystalline nature of the BLG domains, which validates the superiority of the homo-epitaxial growth technique. The as-grown BLG show comparable quality with the CVD-grown BLG on metal surface. Field-effect transistors directly fabricated on the as-grown BLG/SiO\( _2 \)/Si showed a room temperature carrier mobility as high as 2297 cm \( ^2 \) V\( ^{-1}\) s \(^{-1} \).
ISSN:2331-8422