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Repeated fast selective growth of prepatternable monolayer graphene of electronic quality

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Authors

Choi, Kyoungjun; Jeong, Yong Jin; Ahn, Juhwan; Choi, Yong Seok; Cho, Sung-Pyo; Hong, Byung Hee; Park, Hyung Gyu

Issue Date
2024-09
Publisher
Pergamon Press Ltd.
Citation
Carbon, Vol.228, p. 119285
Abstract
Pattern formation is becoming indispensable in many applications of high-quality synthetic graphene. Nevertheless, the use of multiple lithography and etching steps can often degrade the properties of graphene due to residual disorder. Here, we report a facile, selective, and recyclable method for graphene synthesis from acetylene (C2H2) via catalytic chemical vapor deposition on a bimetal catalyst (Cu-Ni alloy). The synergistic pairing of the Cu-Ni alloy and C2H2 facilitates a rapid (ca. 1 min) synthesis of high-quality graphene under an intermediate temperature condition, e.g., 800 degrees C, that is quite relaxed from the far-flung method based on a Cu-CH4 pair. Prepatterned Cu-Ni alloy not only produces monolayer graphene patterns without any postprocessing but is also detachable from the resultant graphene patterns electrochemically, hinting at catalyst recyclability. Our test device of an organic field-effect transistor based on the prepatterned monolayer graphene outperforms its topdown counterpart that has undergone lithography and etching. Our facile selective growth of prepatternable monolayer graphene at intermediate temperatures, along with catalyst recyclability, may altogether lend adaptability, productivity, and sustainability to graphene-incorporated applications.
ISSN
0008-6223
URI
https://hdl.handle.net/10371/204566
DOI
https://doi.org/10.1016/j.carbon.2024.119285
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  • College of Natural Sciences
  • Department of Chemistry
Research Area Nanofabrication and characterization, Nanomaterials Synthesis, Quantum mechanics and molecular dynamics simulation, 나노재료 합성, 나노제조 및 특성화, 양자역학 및 분자역학 시뮬레이션

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