A novel preparation method for uniform large-area graphene films on Ni@Cu substrate

Cheng Chen; Manzhang Xu; Zhiyong Zhang; Guoqiang He; Junfeng Yan; Wu Zhao; Jiangni Yun; Johan Stiens

doi:10.1016/j.mtcomm.2019.100607

A novel preparation method for uniform large-area graphene films on Ni@Cu substrate

Cheng Chen
, Manzhang Xu
, Zhiyong Zhang
, Guoqiang He
, Junfeng Yan
, Wu Zhao
, Jiangni Yun
, Johan Stiens

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

6 Scopus citations

Abstract

Controlling the number of graphene layers is crucial in graphene synthesis for the development of graphene-based electronics. Numerous investigations have found that a reasonably designed binary alloy can effectively overcome the defects of pure metal and activate the self-limited growth of a monolayer of graphene. Graphene films were prepared on the Ni@Cu substrate by a chemical vapor deposition method. Ni@Cu is a novel Cu based substrate whose surface is alloyed with Ni atoms. In this paper, the advantages of graphene film synthesis on this new substrate were demonstrated through experiments, including the influence of the fast cooling process on the growth of graphene film, the influence of the proportion of Ni on the growth thickness of graphene film, and the transfer process of graphene film from this substrate.

Original language	English
Article number	100607
Journal	Materials Today Communications
Volume	21
DOIs	https://doi.org/10.1016/j.mtcomm.2019.100607
State	Published - Dec 2019
Externally published	Yes

Keywords

Chemical vapor deposition
Multilayer structure
Raman
Sputtering
Thin films

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10.1016/j.mtcomm.2019.100607

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title = "A novel preparation method for uniform large-area graphene films on Ni@Cu substrate",

abstract = "Controlling the number of graphene layers is crucial in graphene synthesis for the development of graphene-based electronics. Numerous investigations have found that a reasonably designed binary alloy can effectively overcome the defects of pure metal and activate the self-limited growth of a monolayer of graphene. Graphene films were prepared on the Ni@Cu substrate by a chemical vapor deposition method. Ni@Cu is a novel Cu based substrate whose surface is alloyed with Ni atoms. In this paper, the advantages of graphene film synthesis on this new substrate were demonstrated through experiments, including the influence of the fast cooling process on the growth of graphene film, the influence of the proportion of Ni on the growth thickness of graphene film, and the transfer process of graphene film from this substrate.",

keywords = "Chemical vapor deposition, Multilayer structure, Raman, Sputtering, Thin films",

author = "Cheng Chen and Manzhang Xu and Zhiyong Zhang and Guoqiang He and Junfeng Yan and Wu Zhao and Jiangni Yun and Johan Stiens",

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year = "2019",

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doi = "10.1016/j.mtcomm.2019.100607",

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T1 - A novel preparation method for uniform large-area graphene films on Ni@Cu substrate

AU - Chen, Cheng

AU - Xu, Manzhang

AU - Zhang, Zhiyong

AU - He, Guoqiang

AU - Yan, Junfeng

AU - Zhao, Wu

AU - Yun, Jiangni

AU - Stiens, Johan

PY - 2019/12

Y1 - 2019/12

N2 - Controlling the number of graphene layers is crucial in graphene synthesis for the development of graphene-based electronics. Numerous investigations have found that a reasonably designed binary alloy can effectively overcome the defects of pure metal and activate the self-limited growth of a monolayer of graphene. Graphene films were prepared on the Ni@Cu substrate by a chemical vapor deposition method. Ni@Cu is a novel Cu based substrate whose surface is alloyed with Ni atoms. In this paper, the advantages of graphene film synthesis on this new substrate were demonstrated through experiments, including the influence of the fast cooling process on the growth of graphene film, the influence of the proportion of Ni on the growth thickness of graphene film, and the transfer process of graphene film from this substrate.

AB - Controlling the number of graphene layers is crucial in graphene synthesis for the development of graphene-based electronics. Numerous investigations have found that a reasonably designed binary alloy can effectively overcome the defects of pure metal and activate the self-limited growth of a monolayer of graphene. Graphene films were prepared on the Ni@Cu substrate by a chemical vapor deposition method. Ni@Cu is a novel Cu based substrate whose surface is alloyed with Ni atoms. In this paper, the advantages of graphene film synthesis on this new substrate were demonstrated through experiments, including the influence of the fast cooling process on the growth of graphene film, the influence of the proportion of Ni on the growth thickness of graphene film, and the transfer process of graphene film from this substrate.

KW - Chemical vapor deposition

KW - Multilayer structure

KW - Raman

KW - Sputtering

KW - Thin films

UR - https://www.scopus.com/pages/publications/85072576973

U2 - 10.1016/j.mtcomm.2019.100607

DO - 10.1016/j.mtcomm.2019.100607

M3 - 文章

AN - SCOPUS:85072576973

SN - 2352-4928

VL - 21

JO - Materials Today Communications

JF - Materials Today Communications

M1 - 100607

ER -

A novel preparation method for uniform large-area graphene films on Ni@Cu substrate

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Keywords

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