Multilayer graphene growth on polar dielectric substrates using chemical vapour deposition

The location of nanoparticles is a straightforward reflection of the nucleation sites of graphene growth. The deposition of nanoparticles is consistent with the distribution of multilayer graphene.

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Predictive Modeling of Multilayer Graphene Growth by Chemical Vapour Deposition on Co-Ni/Al2O3 Substrate using Artificial Neural Network

Engineering and Technology Journal ◽

10.30684/etj.37.1c.18 ◽

2019 ◽

Vol 37 (1C) ◽

pp. 113-119

Author(s):

May Muslim ◽

Zainab Yousif ◽

Mohamed Abdel Ghany

Keyword(s):

Neural Network ◽

Artificial Neural Network ◽

Chemical Vapour Deposition ◽

Predictive Modeling ◽

Vapour Deposition ◽

Chemical Vapour ◽

Multilayer Graphene ◽

Al2o3 Substrate ◽

Graphene Growth ◽

Artificial Neural

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Surface melting of copper during graphene growth by chemical vapour deposition

Journal of Physics D Applied Physics ◽

10.1088/0022-3727/48/43/435303 ◽

2015 ◽

Vol 48 (43) ◽

pp. 435303 ◽

Cited By ~ 10

Author(s):

A A Pakhnevich ◽

S V Golod ◽

V Ya Prinz

Keyword(s):

Chemical Vapour Deposition ◽

Vapour Deposition ◽

Chemical Vapour ◽

Surface Melting ◽

Graphene Growth

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Gas sensing applications of multilayer graphene grown on Co-Ni/Al2O3 substrate by chemical vapour deposition

International Journal of Nanotechnology ◽

10.1504/ijnt.2019.107362 ◽

2019 ◽

Vol 16 (11/12) ◽

pp. 692

Author(s):

May Ali ◽

Bamidele Victor Ayodele ◽

Faizah Md Yasin ◽

Mohd Nizar Hamidon ◽

Suraya Abdul Rashid

Keyword(s):

Chemical Vapour Deposition ◽

Vapour Deposition ◽

Gas Sensing ◽

Chemical Vapour ◽

Multilayer Graphene ◽

Sensing Applications

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The Growth Kinetics of Multilayer Graphene Grown on Al2O3 Substrate by Chemical Vapour Deposition

Procedia Engineering ◽

10.1016/j.proeng.2016.06.533 ◽

2016 ◽

Vol 148 ◽

pp. 1295-1302

Author(s):

May Ali ◽

Suraya Abdul-Rashid ◽

Mohd Nizar Hamidon ◽

Faizah Md Yasin

Keyword(s):

Chemical Vapour Deposition ◽

Growth Kinetics ◽

Vapour Deposition ◽

Chemical Vapour ◽

Multilayer Graphene ◽

Al2o3 Substrate ◽

Kinetics Of

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Initial stages of few-layer graphene growth by microwave plasma-enhanced chemical vapour deposition

Nanotechnology ◽

10.1088/0957-4484/21/9/095602 ◽

2010 ◽

Vol 21 (9) ◽

pp. 095602 ◽

Cited By ~ 42

Author(s):

Roumen Vitchev ◽

Alexander Malesevic ◽

Roumen H Petrov ◽

Raymond Kemps ◽

Myrjam Mertens ◽

...

Keyword(s):

Chemical Vapour Deposition ◽

Vapour Deposition ◽

Microwave Plasma ◽

Chemical Vapour ◽

Graphene Growth ◽

Layer Graphene ◽

Few Layer Graphene

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Gas-phase dynamics in graphene growth by chemical vapour deposition

Physical Chemistry Chemical Physics ◽

10.1039/c5cp02301g ◽

2015 ◽

Vol 17 (35) ◽

pp. 22832-22836 ◽

Cited By ~ 19

Author(s):

Gan Li ◽

Sheng-Hong Huang ◽

Zhenyu Li

Keyword(s):

Numerical Simulations ◽

Gas Phase ◽

Chemical Vapour Deposition ◽

Vapour Deposition ◽

Chemical Vapour ◽

Graphene Growth ◽

Phase Dynamics

Numerical simulations confirm that gas-phase dynamics is an important integrant of the mechanism of graphene growth via chemical vapour deposition.

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Effect of hydrogen on graphene growth from solid waste products by chemical vapour deposition: friction coefficient properties

Industrial Lubrication and Tribology ◽

10.1108/ilt-05-2018-0197 ◽

2018 ◽

Vol 72 (2) ◽

pp. 181-188

Author(s):

Noor Ayuma Mat Tahir ◽

Mohd Fadzli Bin Abdollah ◽

Noreffendy Tamaldin ◽

Mohd Rody Bin Mohamad Zin ◽

Hilmi Amiruddin

Keyword(s):

Friction Coefficient ◽

Chemical Vapour Deposition ◽

Vapour Deposition ◽

Chemical Vapour ◽

Dry Sliding ◽

Waste Products ◽

Content Type ◽

Graphene Growth ◽

Cvd Method ◽

Sliding Test

Purpose The purpose of this paper is to study the effect of hydrogen (H2) gas on the graphene growth from fruit cover plastic waste (FCPW) and oil palm fibre (OPF), as a solid feedstock, towards the coefficient of friction (COF) properties. Design/methodology/approach Graphene film growth on copper (Cu) substrate was synthesised from FCPW and OPF, as a solid feedstock, using the chemical vapour deposition (CVD) method, at atmospheric pressure. The synthesised graphene was characterised using Raman spectroscopy, Scanning Electron Microscopy (SEM) and Electron Dispersed Spectroscopy (EDS). Surface hardness and roughness were measured using a nano-indenter and surface profilometer, respectively. Then, a dry sliding test was executed using a ball-on-disc tribometer at constant speed, sliding distance and load, with coated and uncoated copper sheet as the counter surface. Findings The presence of H2 gas reduced the running-in time of the dry sliding test. However, there is no significant effect at the constant COF region, where the graphene growth from FCPW shows the lowest COF among other surfaces. Research limitations/implications This paper is limited to graphene growth using the CVD method with selected parameters. Originality/value To the authors’ knowledge, this is the first paper on growing graphene from palm oil fiber via the CVD method and its subsequent analysis, based on friction coefficient properties.

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