Bubble-Mediated Production of Few-Layer Graphene via Vapor–Liquid Reaction between Carbon Dioxide and Magnesium Melt

Xuejian Li; Xiaojun Wang; Hailong Shi; Yuchao Jin; Xiaoshi Hu; Chao Xu; Lunyuan Tang; Min Ma; Liwei Lu

doi:10.3390/ma17040897

Bubble-Mediated Production of Few-Layer Graphene via Vapor–Liquid Reaction between Carbon Dioxide and Magnesium Melt

Xuejian Li
, Xiaojun Wang^*
, Hailong Shi^*
, Yuchao Jin
, Xiaoshi Hu
, Chao Xu
, Lunyuan Tang
, Min Ma
, Liwei Lu

^*Corresponding author for this work

School of Materials Science and Engineering

Hunan Rongtuo New Material Research Co., Ltd.
Harbin Institute of Technology
Hunan University of Science and Technology

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

2 Scopus citations

Abstract

It is urgent to develop novel technologies to convert carbon dioxide to graphene. In this work, a bubble-mediated approach via a chemical reaction between carbon dioxide gas and magnesium melt to fabricate a few-layer graphene was illustrated. The morphology and defects of graphene can be regulated by manipulating the melt temperature. The preparation of graphene at 720 °C exhibited an excellent quality of surface and graphitization degree. The high-quality few-layer graphene can be grown under the combined effect of carbon dioxide bubbles and in-situ grown MgO. This preparation method possesses the advantages of high efficiency, low cost, and environmental protection, which may provide a new strategy for the recovery and reuse of greenhouse gases.

Original language	English
Article number	897
Journal	Materials
Volume	17
Issue number	4
DOIs	https://doi.org/10.3390/ma17040897
State	Published - Feb 2024

Keywords

CO bubbles
few-layer graphene
growth mechanism
magnesiothermic reaction
magnesium melt

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10.3390/ma17040897

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title = "Bubble-Mediated Production of Few-Layer Graphene via Vapor–Liquid Reaction between Carbon Dioxide and Magnesium Melt",

abstract = "It is urgent to develop novel technologies to convert carbon dioxide to graphene. In this work, a bubble-mediated approach via a chemical reaction between carbon dioxide gas and magnesium melt to fabricate a few-layer graphene was illustrated. The morphology and defects of graphene can be regulated by manipulating the melt temperature. The preparation of graphene at 720 °C exhibited an excellent quality of surface and graphitization degree. The high-quality few-layer graphene can be grown under the combined effect of carbon dioxide bubbles and in-situ grown MgO. This preparation method possesses the advantages of high efficiency, low cost, and environmental protection, which may provide a new strategy for the recovery and reuse of greenhouse gases.",

keywords = "CO bubbles, few-layer graphene, growth mechanism, magnesiothermic reaction, magnesium melt",

author = "Xuejian Li and Xiaojun Wang and Hailong Shi and Yuchao Jin and Xiaoshi Hu and Chao Xu and Lunyuan Tang and Min Ma and Liwei Lu",

note = "Publisher Copyright: {\textcopyright} 2024 by the authors.",

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doi = "10.3390/ma17040897",

language = "英语",

volume = "17",

journal = "Materials",

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T1 - Bubble-Mediated Production of Few-Layer Graphene via Vapor–Liquid Reaction between Carbon Dioxide and Magnesium Melt

AU - Li, Xuejian

AU - Wang, Xiaojun

AU - Shi, Hailong

AU - Jin, Yuchao

AU - Hu, Xiaoshi

AU - Xu, Chao

AU - Tang, Lunyuan

AU - Ma, Min

AU - Lu, Liwei

PY - 2024/2

Y1 - 2024/2

N2 - It is urgent to develop novel technologies to convert carbon dioxide to graphene. In this work, a bubble-mediated approach via a chemical reaction between carbon dioxide gas and magnesium melt to fabricate a few-layer graphene was illustrated. The morphology and defects of graphene can be regulated by manipulating the melt temperature. The preparation of graphene at 720 °C exhibited an excellent quality of surface and graphitization degree. The high-quality few-layer graphene can be grown under the combined effect of carbon dioxide bubbles and in-situ grown MgO. This preparation method possesses the advantages of high efficiency, low cost, and environmental protection, which may provide a new strategy for the recovery and reuse of greenhouse gases.

AB - It is urgent to develop novel technologies to convert carbon dioxide to graphene. In this work, a bubble-mediated approach via a chemical reaction between carbon dioxide gas and magnesium melt to fabricate a few-layer graphene was illustrated. The morphology and defects of graphene can be regulated by manipulating the melt temperature. The preparation of graphene at 720 °C exhibited an excellent quality of surface and graphitization degree. The high-quality few-layer graphene can be grown under the combined effect of carbon dioxide bubbles and in-situ grown MgO. This preparation method possesses the advantages of high efficiency, low cost, and environmental protection, which may provide a new strategy for the recovery and reuse of greenhouse gases.

KW - CO bubbles

KW - few-layer graphene

KW - growth mechanism

KW - magnesiothermic reaction

KW - magnesium melt

UR - https://www.scopus.com/pages/publications/85185838983

U2 - 10.3390/ma17040897

DO - 10.3390/ma17040897

M3 - 文章

AN - SCOPUS:85185838983

SN - 1996-1944

VL - 17

JO - Materials

JF - Materials

IS - 4

M1 - 897

ER -

Bubble-Mediated Production of Few-Layer Graphene via Vapor–Liquid Reaction between Carbon Dioxide and Magnesium Melt

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Keywords

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