Fast synthesis of large-area bilayer graphene film on Cu

被引:0
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作者
Jincan Zhang
Xiaoting Liu
Mengqi Zhang
Rui Zhang
Huy Q. Ta
Jianbo Sun
Wendong Wang
Wenqing Zhu
Tiantian Fang
Kaicheng Jia
Xiucai Sun
Xintong Zhang
Yeshu Zhu
Jiaxin Shao
Yuchen Liu
Xin Gao
Qian Yang
Luzhao Sun
Qin Li
Fushun Liang
Heng Chen
Liming Zheng
Fuyi Wang
Wanjian Yin
Xiaoding Wei
Jianbo Yin
Thomas Gemming
Mark. H. Rummeli
Haihui Liu
Hailin Peng
Li Lin
Zhongfan Liu
机构
[1] Peking University,Center for Nanochemistry, Beijing Science and Engineering Center for Nanocarbons, Beijing National Laboratory for Molecular Science, College of Chemistry and Molecular Engineering
[2] Beijing Graphene Institute,Academy for Advanced Interdisciplinary Studies
[3] Peking University,Department of Engineering
[4] University of Cambridge,School of Material Science and Engineering, Tianjin Key Laboratory of Advanced Fibers and Energy Storage, State Key Laboratory of Separation Membranes and Membrane Processes
[5] Tiangong University,Department of Physics and Astronomy
[6] University of Manchester,State Key Laboratory for Turbulence and Complex System, Department of Mechanics and Engineering Science, College of Engineering
[7] Leibniz Institute for Solid State and Materials Research Dresden,CAS Key Laboratory of Analytical Chemistry for Living Biosystems
[8] Peking University,Beijing National Laboratory for Molecular Sciences
[9] Institute of Chemistry,Soochow Institute for Energy and Materials Innovations
[10] Chinese Academy of Sciences,Centre of Polymer and Carbon Materials
[11] National Centre for Mass Spectrometry in Beijing,Institute of Environmental Technology
[12] CAS Key Laboratory of Analytical Chemistry for Living Biosystems,School of Materials Science and Engineering
[13] Institute of Chemistry,undefined
[14] Chinese Academy of Sciences,undefined
[15] Soochow University,undefined
[16] Polish Academy of Sciences,undefined
[17] VŠB -Technical University of Ostrava,undefined
[18] Peking University,undefined
来源
Nature Communications | / 14卷
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摘要
Bilayer graphene (BLG) is intriguing for its unique properties and potential applications in electronics, photonics, and mechanics. However, the chemical vapor deposition synthesis of large-area high-quality bilayer graphene on Cu is suffering from a low growth rate and limited bilayer coverage. Herein, we demonstrate the fast synthesis of meter-sized bilayer graphene film on commercial polycrystalline Cu foils by introducing trace CO2 during high-temperature growth. Continuous bilayer graphene with a high ratio of AB-stacking structure can be obtained within 20 min, which exhibits enhanced mechanical strength, uniform transmittance, and low sheet resistance in large area. Moreover, 96 and 100% AB-stacking structures were achieved in bilayer graphene grown on single-crystal Cu(111) foil and ultraflat single-crystal Cu(111)/sapphire substrates, respectively. The AB-stacking bilayer graphene exhibits tunable bandgap and performs well in photodetection. This work provides important insights into the growth mechanism and the mass production of large-area high-quality BLG on Cu.
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