Highly uniform growth of monolayer graphene by chemical vapor deposition on Cu-Ag alloy catalysts

Hae A.Seul Shin; Jaechul Ryu; Sung Pyo Cho; Eun Kyu Lee; Seungmin Cho; Changgu Lee; Young Chang Joo; Byung Hee Hong

doi:10.1039/c3cp54748e

Highly uniform growth of monolayer graphene by chemical vapor deposition on Cu-Ag alloy catalysts

Hae A.Seul Shin, Jaechul Ryu, Sung Pyo Cho, Eun Kyu Lee, Seungmin Cho, Changgu Lee, Young Chang Joo, Byung Hee Hong

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

One of the major challenges for the practical application of graphene is the large scale synthesis of uniform films with high quality at lower temperature. Here, we demonstrate the use of Ag-plated Cu substrates in the synthesis of high-quality graphene films via chemical vapor deposition (CVD) of methane gas at temperatures as low as 900 °C. Various experimental analyses show that the plated Ag diffuses into Cu to form a uniform Cu-Ag alloy that suppresses the formation of multilayer nucleation and decreases the activation energy of precursor formation, leading to a lower synthesis temperature with enhanced monolayer coverage. In addition, we also observed an unusual Ag-assisted abnormal grain growth of Cu into the cube texture with larger grain sizes and reduced grain boundaries, which is believed to provide the homogeneous environment needed for uniform graphene growth. This journal is

Original language	English
Pages (from-to)	3087-3094
Number of pages	8
Journal	Physical Chemistry Chemical Physics
Volume	16
Issue number	7
DOIs	https://doi.org/10.1039/c3cp54748e
State	Published - 21 Feb 2014
Externally published	Yes

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title = "Highly uniform growth of monolayer graphene by chemical vapor deposition on Cu-Ag alloy catalysts",

abstract = "One of the major challenges for the practical application of graphene is the large scale synthesis of uniform films with high quality at lower temperature. Here, we demonstrate the use of Ag-plated Cu substrates in the synthesis of high-quality graphene films via chemical vapor deposition (CVD) of methane gas at temperatures as low as 900 °C. Various experimental analyses show that the plated Ag diffuses into Cu to form a uniform Cu-Ag alloy that suppresses the formation of multilayer nucleation and decreases the activation energy of precursor formation, leading to a lower synthesis temperature with enhanced monolayer coverage. In addition, we also observed an unusual Ag-assisted abnormal grain growth of Cu into the cube texture with larger grain sizes and reduced grain boundaries, which is believed to provide the homogeneous environment needed for uniform graphene growth. This journal is",

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AU - Shin, Hae A.Seul

AU - Ryu, Jaechul

AU - Cho, Sung Pyo

AU - Lee, Eun Kyu

AU - Cho, Seungmin

AU - Lee, Changgu

AU - Joo, Young Chang

AU - Hong, Byung Hee

PY - 2014/2/21

Y1 - 2014/2/21

N2 - One of the major challenges for the practical application of graphene is the large scale synthesis of uniform films with high quality at lower temperature. Here, we demonstrate the use of Ag-plated Cu substrates in the synthesis of high-quality graphene films via chemical vapor deposition (CVD) of methane gas at temperatures as low as 900 °C. Various experimental analyses show that the plated Ag diffuses into Cu to form a uniform Cu-Ag alloy that suppresses the formation of multilayer nucleation and decreases the activation energy of precursor formation, leading to a lower synthesis temperature with enhanced monolayer coverage. In addition, we also observed an unusual Ag-assisted abnormal grain growth of Cu into the cube texture with larger grain sizes and reduced grain boundaries, which is believed to provide the homogeneous environment needed for uniform graphene growth. This journal is

AB - One of the major challenges for the practical application of graphene is the large scale synthesis of uniform films with high quality at lower temperature. Here, we demonstrate the use of Ag-plated Cu substrates in the synthesis of high-quality graphene films via chemical vapor deposition (CVD) of methane gas at temperatures as low as 900 °C. Various experimental analyses show that the plated Ag diffuses into Cu to form a uniform Cu-Ag alloy that suppresses the formation of multilayer nucleation and decreases the activation energy of precursor formation, leading to a lower synthesis temperature with enhanced monolayer coverage. In addition, we also observed an unusual Ag-assisted abnormal grain growth of Cu into the cube texture with larger grain sizes and reduced grain boundaries, which is believed to provide the homogeneous environment needed for uniform graphene growth. This journal is

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Highly uniform growth of monolayer graphene by chemical vapor deposition on Cu-Ag alloy catalysts

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