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Chemical Vapor
Deposition (CVD)
and its relation to
Graphene
by
Ahmad Humaizi bin Hilmi
and
Asna Rasyidah binti Abdul Hamid

OBJECTIVES OF THIS BOOK
The objective of this book is to help PhD students, master's students, undergraduate students, and
researchers in defining research needs and techniques
...
Students will get acquainted with the
most commonly utilised techniques, analyses, and models in this area of study by scanning the list
offered in this book
...
This book is meant for researchers
in Chemical Vapor Deposition (CVD) and its relation to graphene but is not restricted to them solely
...


GUIDELINES TO USE THIS BOOK
As you can notice, this book contains only Tables that lists all the names of abbreviations, analysis,
behaviour etc that are mentioned in all ,84 journals that are mentioned in references section
...

This book gathers findings from hundreds of journals connected to the subject matter in order to help
students find their research gaps and research methodologies easier
...
Your
choice should be discussed with your research supervisor
...
THE MOST MENTIONED ARE A TREND
2
...
NOT MENTIONED AT ALL ARE RESEARCH GAPS
All the lists here are acts as TWO (2) purposes
...
List of methodologies that may help you selecting the best methodologies for your research
2
...

For example, refer to Figure 1 and Figure 2

Figure 1: Names of most mention items for analysis
The most mentioned name of analysis are
a
...
Linear Stability Analysis

– 19 times
– 18 times

According to 1st rule, most mention is trend,
This means that in doing research on the subject matter, you must hardly consider using Finite Element
Analysis and Linear Stability Analysis as they are mostly mentioned in all journals related
...


Figure 2: Names for least mentioned items for analysis

According to 2nd rule, less mention is gap potential,
This means that from all the journals, only ONE (1) or TWO (2) times those names are mentioned
...
You should
discuss those options with your supervisor
...
Thus, you choose this analysis as
your research tool
...
Structure Interaction Analysis
2
...

From all the list, not once mentioned a certain tool that you think is gap potential
...
You can mention that your idea(s) are not mentioned at all in all journals
relate to the subject matter
...
It can be
confirmed that nobody uses graphene in this research
...


Topics that you might discuss with Supervisors
These are the among items that you may discuss with your supervisors regarding research gaps and
tools to use in your report
...
List of analysis/methods/model/behavior/properties etc that are mostly mentioned in all journals
2
...
Equipment that you choose is unavailable
...
Equipment that you choose are under maintenance
5
...

6
...
Materials that you choose have been used before as it is mentioned in this guideline book
...
The type of analysis/methods/model etc that you choose cannot be done as there are no expert
available at your institution
9
...
You may
want to propose it to your supervisor
...
Read it
thoroughly
...


Graphene in overall
Carbon quantum dots (CQDs), fullerene (0D), carbon nanotubes (CNTs), carbon nanofibers, carbon
nanorods, carbon nanowires, carbon nanoribbons (1D), graphene nanosheets (2D), and diamond have
all risen in popularity as allotropes in recent years (3D)
...
Carbon nanostructures such as carbon nanofibers (CNFs) and carbon nanotubes (CNTs) are
created by folding graphene sheets into one-dimensional tubular structures
...
Chemical exfoliation
from bulk graphite, thermal graphitization or solid-state graphitization of SiC, and chemical reduction
of chemically exfoliated graphene are all instances of micromechanical graphite cleavage
...
Graphene has been combined with a variety of photocatalysts
during the last decade due to its improved charge carrier mobility and transparency, including TiO2,
ZnO, SrTiO3, and g-C3N4
...
Since the discovery of fullerene in 1984 and carbon nanotubes (CNTs) in
1991, researchers have worked diligently to synthesise and apply a diverse range of functional carbonbased nanomaterials with a variety of nanostructures and morphologies, including nano-onions,
nanohorns, nanosheets, nanofibers, and nanocages
...
Additionally, the use of graphene as electrodes
or electrocatalysts in electrochemical energy storage and conversion applications such as
supercapacitors, batteries, and fuel cells is a fast emerging field of research
...
Its massive surface area offers a multitude of electroactive sites for
electrochemical reactions, while its high conductivity enables electron and electrolyte ion transit
...
Due to graphene's unique
features, it has shown enormous potential in a multitude of disciplines, including energy storage
devices, optoelectronic devices, shielding for electronic magnetic interfaces, and supercapacitors 1,2
...
CVD growth has the potential to be a feasible approach for mass
manufacturing graphene-based objects such as electrical gadgets in a scalable, cost-effective, and
controlled way
...
Chemical vapour deposition (CVD) has been shown to be the most promising, costeffective, and generally accessible method for fabricating large-area, high-quality graphene with a low
density of structural flaws for optoelectronics and microelectronics applications
...
The major
technique for producing graphene is chemical vapour deposition (CVD)
...
It is particularly relevant since a recent discovery that certain
chemical species, such as methane and hydrogen gases, may have a major influence on the creation
and etching of graphene domains during CVD development
...
On the other hand, typical CVD procedures have a large thermal budget (high temperatures
and lengthy process times), which precludes its industrialization [9]
...
[10]

Issues related to CVD
ayat2 berkaitan ayat2 berkaitan ayat2 berkaitan ayat2 berkaitan ayat2 berkaitan ayat2 berkaitan

1
...
Each loading-unloading-reloading cycle improves the contact
between the tip and the graphene, resulting in enhanced tip-graphene adhesion and the removal of
the vertically connected segment
...
As a
consequence, the influence of border delamination on softening reduces with time
...
This is often linked to contact between the Van
Der Waals (vdW) and the substrate sidewall
...
[11] Additionally, it was revealed that a
little amount of indentation stress results in the delamination of the sticky graphene border
...

[11]

2
...
On the other side, Atomic Force
Microscopy (AFM) photos of FS CVD graphene clearly show the creases
...
To imitate the wrinkling impact on the tip-graphene Van Der
Waals (vdW) interaction, a smooth membrane with a lower LJ value might be utilised
...
[2] After entirely delaminating the adhering
piece of graphene, the FS segment is extended, resulting in a fast rise in P with dt in Stage III; also, the
P-dt link becomes smooth, disguising the wrinkle impact on the indentation response
...
Controlled growth
1
...
As a
consequence, researching and controlling growth and etching processes has grown into an enthralling
topic of study
...
Chemical vapour deposition has been used to fabricate a variety of
graphene forms via controlled growth and etching (CVD)
...
[13]

4
...
Additionally,
BLG sheets may be used as raw materials in the surface dip-coating process to produce BLG coating
...
[14] A possible
technique for fuel cell development is to investigate innovative non-noble metal or even metal-free
catalysts with high catalytic activity and durability in the oxygen reduction process (ORR)
...
Due to their capacity to prevent individual carbon
nanotubes or graphene from aggregating, 3D N-doped carbon nanotubes/graphene hybrids have
been investigated as metal-free ORR catalysts
...
Following CVD and MgO solubilization, the sample
was subjected to transmission electron microscopy and scanning electron microscopy to confirm the
presence of graphene
...
The crumpled
structure was ascribed to graphene nanosheet aggregation
...
The crumpled structure
was ascribed to graphene nanosheet aggregation
...


5
...
As a result of these behavioural variations, they have radically
different operating systems (in addition to the diversity in their carbon solubility)
...
Segregation/precipitation has been identified as the
primary mechanism of action in Cu-Ni alloys containing trace quantities of nickel
...


6
...
Its massive surface area offers a multitude of electroactive
sites for electrochemical reactions, while its high conductivity enables electron and electrolyte ion
transit
...
To address this problem, researchers have investigated fillers with a high heat conductivity
...
Flaked graphite, carbon fibres
4e, carbon nanotubes (CNTs) e, and graphene nanosheets/nanoplatelets are all examples of carbon
nanofillers
...
This is especially true for carbon compounds, which have a strong
tendency to aggregate due to van der Waals interactions
...
Van der Waals interactions result in the buildup of graphene nanosheets, which eventually
results in massive graphene clusters
...


7
...
Thermal CVD has
established itself as the most scalable and cost-effective technology for depositing single and fewlayer graphene on metal substrates 2,3
...
Numerous corrosion protection techniques have been
established, but researchers are now focusing their efforts on producing new and long-lasting coatings
that enhance the electrical and thermal characteristics of the protected metals while also increasing
their aesthetics
...
Graphene has gained significant notoriety since its discovery
in 2004 as an unequalled monolayer of carbon atoms structured in a honeycomb lattice with
unmatched electrical, thermal, and mechanical capabilities
...


LIST OF FREQUENTLY MENTIONED
These are the most frequently mentioned keywords stated in ,84 journals related to Chemical Vapor
Deposition (CVD) and its relation to graphene
...
If not, your research may be incomplete
...
If you do not include it in your research, your research
might be incomplete
...
You may refer
this list when encountered any abbreviations in this guidelines
...
Researchers should
consider the upper list are part of their research
...
For example, item No 8 Analysis Pattern Evolution was only mentioned twice
in all 84 journals related, therefore not many researchers are doing it
...

Discuss your selection with your supervisor
...
Thirumal, V
...
, Kumar, P
...
, Ravi, G
...
(2021)
...

3
...

5
...

7
...

9
...

11
...

13
...


growth of multilayered graphene nanofibers by chemical vapour deposition and their binderfree electrodes for symmetric supercapacitor devices
...

Chen, Y
...
, Lin, W
...
, Tseng, W
...
, Chen, C
...
, Rossman, G
...
, Chen, C
...
& Yeh,
N
...
(2020)
...
Carbon, 156, 212-224
...
, Bu, X
...
, He, P
...
, & Xie, X
...
Core-shell SrTiO3/graphene
structure by chemical vapor deposition for enhanced photocatalytic performance
...

Li, Y
...
, Lei, L
...
, Li, Y
...
& Ma, Y
...
Chemical vapor depositiongrown carbon nanotubes/graphene hybrids for electrochemical energy storage and
conversion
...

Chen, Z
...
, Zhu, L
...
, Liu, Y
...
& Zhao, Y
...
Direct growth of
graphene on vertically standing glass by a metal-free chemical vapor deposition
method
...

Chuang, C
...
, Matsunaga, M
...
W
...
Y
...
H
...

(2019)
...
Carbon, 154, 238-243
...
, Rafailov, P
...
, Marinova, V
...
H
...
C
...
& Gospodinov, M
...
Chemical vapor deposition growth of bilayer graphene via altering gas flux
geometry
...

Chen, S
...
, Srinivasan, B
...
, Zhang, G
...
, Hariharaputran, R
...

W
...
A kinetic Monte Carlo model for the growth and etching of graphene during
chemical vapor deposition
...

Chang, Y
...
, Yen, C
...
, Tsai, H
...
, Chen, T
...
, Yang, C
...
, Chen, C
...
, & Woon, W
...

(2020)
...
Carbon, 159, 570-578
...
, Climent-Pascual, E
...
, Yu, H
...
, Jiménez-Villacorta, F
...
,

...
(2018)
...
Carbon, 139, 593-598
...
, & Cao, G
...
Adhesive boundary effect on free-standing indentation
characterization of chemical vapor deposition graphene
...

Shen, B
...
, Ji, Z
...
, Chen, S
...
, & Zhang, Z
...
Bilayer graphene
film synthesized by hot filament chemical vapor deposition as a nanoscale solid
lubricant
...

Sasidhar, K
...
, Srivastava, A
...
, & Lahiri, I
...
Catalytic activity of pure Ni and
Ni-33% Cu for dehydrogenation during graphene growth by chemical vapour
deposition
...

Naghdi, S
...
, Mišković-Stanković, V
...
Y
...
Comprehensive
electrochemical study on corrosion performance of graphene coatings deposited by chemical
vapour deposition at atmospheric pressure on platinum-coated molybdenum foil
...


15
...
Betbeder, Samuel J
...
Kelly,Low-temperature synthesis of
vertically aligned graphene through microwave-assisted chemical vapour deposition,Thin
Solid Films,Volume 733,2021,138801,ISSN 0040-6090

17
...
Pham, Trung H
...
Do, Thanh K
...
Ngo,Optimum reproduction and
characterization of graphene on copper foils by low pressure chemical vapor
deposition,Materials Chemistry and Physics,Volume 224,2019,Pages 286-292,ISSN 02540584
18
...
Young, Colter Smith, Timothy M
...
Hitchcock, Eric M
...
Taehoon Kim, Matthew R
...
Ono, Yabing Qi,Stacked-graphene layers as
engineered solid-electrolyte interphase (SEI) grown by chemical vapour deposition for
lithium-ion batteries,Carbon,Volume 132,2018,Pages 678-690,ISSN 0008-6223*pSamira
Naghdi, Kyong Yop Rhee, Soo Jin Park,Transfer-free chemical vapor deposition of graphene
on silicon substrate at atmospheric pressure: A sacrificial catalyst,Thin Solid Films,Volume
657,2018,Pages 55-60,ISSN 0040-6090
20
...
Erika Rajackaitė, Domantas Peckus, Rimantas Gudaitis, Tomas Tamulevičius, Šarūnas
Meškinis, Sigitas Tamulevičius,The evolution of properties with deposition time of vertical
graphene nanosheets produced by microwave plasma-enhanced chemical vapor
deposition,Surfaces and Interfaces,Volume 27,2021,101529,ISSN 2468-0230
22
...
Zhi-Kun BAI, Yi-Tao ZHANG, She-Hong LI, Hong-Xia LUO,A Flexible Electrochemical Sensor
Based on L-Arginine Modified Chemical Vapor Deposition Graphene Platform Electrode for
Selective Determination of Xanthine,Chinese Journal of Analytical Chemistry,Volume 48,
Issue 9,2020,Pages 1149-1159,ISSN 1872-2040
24
...
R
...
Mudusu, W
...
D
...
Lee,User-friendly methodology for
chemical vapor deposition –grown graphene-layers transfer: Design and
implementation,Materials Today Chemistry,Volume 21,2021,100546,ISSN 2468-5194
25
...
Tharanga R
...
Kushan Wijewardena, Sajith M
...
Samaraweera, Ramesh G
...
Van Tu Nguyen, Young Chul Kim, Yeong Hwan Ahn, Soonil Lee, Ji-Yong Park,Large-area
growth of high-quality graphene/MoS2 vertical heterostructures by chemical vapor
deposition with nucleation control,Carbon,Volume 168,2020,Pages 580-587,ISSN 0008-6223
28
...
K
...
Sasidhar, Ananya Srivastava, Parthasarathi Bera, Indranil Lahiri,Catalytic activity of pure
Ni and Ni-33%Cu for dehydrogenation during graphene growth by chemical vapour
deposition,Materials Today: Proceedings,Volume 5, Issue 9, Part 1,2018,Pages 1728417292,ISSN 2214-7853
30
...
-T
...
E
...
Yang, Y
...
Hsieh, Dinesh K
...
Watanabe, T
...
Aoki,Large, non-saturating magnetoresistance in single layer
chemical vapor deposition graphene with an h-BN capping layer,Carbon,Volume
136,2018,Pages 211-216,ISSN 0008-6223*pMaisara Othman, Richard Ritikos, Saadah Abdul
Rahman,Growth of plasma-enhanced chemical vapour deposition and hot filament plasmaenhanced chemical vapour deposition transfer-free graphene using a nickel catalyst,Thin
Solid Films,Volume 685,2019,Pages 335-342,ISSN 0040-6090
31
...
Chen-Chih Hsu, Jacob D
...
Teague, Wei-Shiuan Tseng, Kathleen L
...
Tour, N
...
Yeh,High-yield single-step catalytic growth of
graphene nanostripes by plasma enhanced chemical vapor deposition,Carbon,Volume
129,2018,Pages 527-536,ISSN 0008-6223*pChih-Pin Han, Chih-Jung Chen, Chen-Chih Hsu,
Anirudha Jena, Ho Chang, Nai-Chang Yeh, Shu-Fen Hu, Ru-Shi Liu,Pressure-controlled
chemical vapor deposition of graphene as catalyst for solar hydrogen evolution
reaction,Catalysis Today,Volume 335,2019,Pages 395-401,ISSN 0920-5861
33
...
Hwi Je Woo, Seongchan Kim, Young-Jin Choi, Jeong Ho Cho, Seong Heon Kim, Young Jae
Song,Inhomogeneous work-function hysteresis in chemical vapor deposition-grown
graphene field-effect devices,Carbon,Volume 173,2021,Pages 594-599,ISSN 0008-6223
35
...
Sandra Cortijo-Campos, Leo Álvarez-Fraga, Gil Gonçalves, Mercedes Vila, Patricia Álvarez,
Rosa Menéndez, Alicia de Andrés, Carlos Prieto,In-situ carboxylation of graphene by
chemical vapor deposition growth for biosensing,Carbon,Volume 141,2019,Pages 719727,ISSN 0008-6223*pFiliberto Ricciardella, Sten Vollebregt, Rita Tilmann, Oliver Hartwig,
Cian Bartlam, Pasqualina M
...
Duesberg,Influence of defect
density on the gas sensing properties of multi-layered graphene grown by chemical vapor
deposition,Carbon Trends,Volume 3,2021,100024,ISSN 2667-0569

37
...
Dhanraj B
...
Vlassiouk, Sergei N
...
Anand Kumar Singh, Vivek Chaudhary, Arun Kumar Singh, S
...
P
...
Da-Je Hsu, Yu-Wen Chi, Kun-Ping Huang, Chi-Chang Hu,Electrochemical activation of
vertically grown graphene nanowalls synthesized by plasma-enhanced chemical vapor
deposition for high-voltage supercapacitors,Electrochimica Acta,Volume 300,2019,Pages
324-332,ISSN 0013-4686
41
...
Yue Li, Yong Liu, Yunbiao Zhao, Yifan Zhang, Yi Chen, Qining Wang, Ziqiang Zhao,Highlydefective graphene as a metal-free catalyst for chemical vapor deposition growth of
graphene glass,Carbon,Volume 187,2022,Pages 272-279,ISSN 0008-6223
43
...
Qingyun Sun, Rong Tu, Qingfang Xu, Chitengfei Zhang, Jun Li, Hitoshi Ohmori, Marina
Kosinova, Bikramjit Basu, Jiasheng Yan, Shusen Li, Takashi Goto, Lianmeng Zhang, Song
Zhang,Nanoforest of 3C–SiC/graphene by laser chemical vapor deposition with high
electrochemical performance,Journal of Power Sources,Volume 444,2019,227308,ISSN
0378-7753
45
...
Amir Hakimi Ramlan, Shukri Sirat, Edhuan Ismail, Yose Fachmi Buys, Hadi Purwanto, Yasir
Mustafah, Muhammad Faiz Md Din, Mohd
...
Chamseddine Bouhafs, Sergio Pezzini, Fabian R
...
Thomas Weitz, Alexei A
...
Ye
...
Ye
...
A
...
S
...
V
...


49
...


51
...


53
...


55
...


57
...


Hu, Fan Wu, Xiao-Ling Yan, Marvin H
...
Vinodgopal, Gui-Ping Dai,Morphology
engineering and etching of graphene domain by low-pressure chemical vapor
deposition,Journal of Saudi Chemical Society,Volume 23, Issue 2,2019,Pages 162-170,ISSN
1319-6103
André do Nascimento Barbosa, N
...
S
...
D
...
L
...
L
...
5 Minute-synthesis of continuous graphene
films by chemical vapor deposition on Cu foils rolled in three dimensions,Chemical
Engineering Science,Volume 201,2019,Pages 319-324,ISSN 0009-2509
Jun Mok Ha, Na Eun Lee, Young Jun Yoon, Seoung Ho Lee, Yong Seok Hwang, Jae Kwon Suk,
Chan Young Lee, Cho Rong Kim, Sunmog Yeo,Universal dry synthesis and patterning of highquality and -purity graphene quantum dots by ion-beam assisted chemical vapor
deposition,Carbon,Volume 186,2022,Pages 28-35,ISSN 0008-6223
Na Li, Zhen Zhen, Rujing Zhang, Rende Mu, Zhenhua Xu, Limin He,The nucleation and growth
of graphene under a controlled atmosphere during radio frequency-plasma-enhanced
chemical vapor deposition,Vacuum,Volume 196,2022,110750,ISSN 0042-207X
Huan Zhang, Sudong Wu, Ziyu Lu, Xinchun Chen, Qixian Chen, Pingqi Gao, Tianbao Yu, Zhijian
Peng, Jichun Ye,Efficient and controllable growth of vertically oriented graphene nanosheets
by mesoplasma chemical vapor deposition,Carbon,Volume 147,2019,Pages 341-347,ISSN
0008-6223*pIvaylo Hinkov, Katya Pashova, Samir Farhat,Modeling of plasma-enhanced
chemical vapor deposition growth of graphene on cobalt substrates,Diamond and Related
Materials,Volume 93,2019,Pages 84-95,ISSN 0925-9635
M
...
Madito, K
...
Matshoba, F
...
Ochai-Ejeh, N
...
B
...
Fabiane, N
...
R
...
Sinha,Effect of TiO2
nanoparticles on electrical properties of chemical vapor deposition grown single layer
graphene,Synthetic Metals,Volume 256,2019,116155,ISSN 0379-6779
T
...
Hodak, P
...
Botta, N
...
Niki, S
...

Watanabe, S
...
Taychatanapat, S
...
Zi Guo, Pengjiao Zu, Ze Liu, Muswelu Cecillia, Yuhao Cao, Jun Li, Jia Li,The role of etching on
growth of adlayer graphene by chemical vapor deposition,Diamond and Related
Materials,Volume 119,2021,108549,ISSN 0925-9635
60
...
M
...
Gravesteijn, Alexey Y
...
de Jong,Large scale structures in chemical vapor deposition-grown graphene on Ni
thin films,Thin Solid Films,Volume 709,2020,138225,ISSN 0040-6090
61
...
Xing Fan, Jie Sun, Weiling Guo, Xiaoxing Ke, Chunli Yan, Xuejian Li, Yibo Dong, Fangzhu Xiong,
Yafei Fu, Le Wang, Jun Deng, Chen Xu,Chemical vapor deposition of graphene on refractory
metals: The attempt of growth at much higher temperature,Synthetic Metals,Volume
247,2019,Pages 233-239,ISSN 0379-6779
63
...
Na Li, Zhen Zhen, Zhenhua Xu, Rujing Zhang, Rende Mu, Limin He,The growth of large-sized
graphene domains by Faraday cage-assisted plasma enhanced chemical vapor
deposition,Applied Surface Science Advances,Volume 6,2021,100154,ISSN 2666-5239
65
...
Xuejie Wang, Xinyu Song, Shengping Li, Chenggen Xu, Yanming Cao, Zhihua Xiao, Chuanlei
Qi, Xinlong Ma, Jinsen Gao,The cyclic regeneration of templates during the preparation of
mesoporous graphene fibers with excellent capacitive behavior in the fluidized-bed chemical
vapor deposition process,Chemical Engineering Science,Volume 221,2020,115657,ISSN
0009-2509
67
...
Qingbin Liu, Cui Yu, Zezhao He, Guodong Gu, Jingjing Wang, Chuangjie Zhou, Jianchao Guo,
Xuedong Gao, Zhihong Feng,Chemical vapor deposition graphene of high mobility by
gradient growth method on an 4H-SiC (0 0 0 1) substrate,Applied Surface Science,Volume
454,2018,Pages 68-73,ISSN 0169-4332
69
...
Wen Qian Chen, Yi Heng Cheong, Xiaoxu Fu, Li Ya Ge, Andrei Veksha, Grzegorz Lisak,Feassisted catalytic chemical vapor deposition of graphene-like carbon nanosheets over
SrO,Carbon,Volume 171,2021,Pages 444-454,ISSN 0008-6223
71
...
Najmeh Koosha, Javad Karimi-Sabet, Mohammad Ali Moosavian, Younes
Amini,Improvement of synthesized graphene structure through various solvent liquids at low
temperatures by chemical vapor deposition method,Materials Science and Engineering:
B,Volume 274,2021,115458,ISSN 0921-5107
73
...
Imbok Lee, Dong Jae Bae, Won Ki Lee, Cheol-Min Yang, Sung Won Cho, Jungtae Nam, Dong
Yun Lee, A-Rang Jang, Hyeon Suk Shin, Jun Yeon Hwang, Suklyun Hong, Keun Soo Kim,Rapid
synthesis of graphene by chemical vapor deposition using liquefied petroleum gas as
precursor,Carbon,Volume 145,2019,Pages 462-469,ISSN 0008-6223*pS
...
Çelik, S
...
Oral,Multilayer graphene growth on polar dielectric substrates using
chemical vapour deposition,Applied Surface Science,Volume 442,2018,Pages 720-725,ISSN
0169-4332
75
...
Borislav Vasić, Uroš Ralević, Katarina Cvetanović Zobenica, Milče M
...
Florian Göltl, Ellen A
...
J
...
Jacobberger, Michael S
...
Yuehua Huang, Qunyang Li, Ji Zhang, Yizhou Qi, Hongtao Wang, Pei Zhao, Yonggang
Meng,Effect of airborne contaminants on the macroscopic anti-wear performance of
chemical vapor deposition graphene,Surface and Coatings Technology,Volume
383,2020,125276,ISSN 0257-8972
79
...
Stefanos Chaitoglou, Polychronis Tsipas, Thanassis Speliotis, George Kordas, Antonios
Vavouliotis, Athanasios Dimoulas,Insight and control of the chemical vapor deposition
growth parameters and morphological characteristics of graphene/Mo2C heterostructures
over liquid catalyst,Journal of Crystal Growth,Volume 495,2018,Pages 46-53,ISSN 0022-0248
81
...
C
...
Mendoza, P
...
Caldas, F
...
Freire, M
...
H
...
Junjie Wang, Huan Zhang, Yunxing Zhao, Lingze Yao, Min Zhao, Xiaoliang Xu, Baojie Yan,
Jichun Ye, Yusheng Zhao, Sudong Wu,Scalable growth of vertically oriented graphene

nanosheets with high rate by a high-flux mesoplasma chemical vapor deposition,Carbon
Trends,Volume 4,2021,100069,ISSN 2667-0569
84

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