A critical review of the effects of fluid dynamics on graphene growth in atmospheric pressure chemical vapor deposition

Chemical vapor deposition (CVD) of graphene has attracted high interest in the electronics industry due to its potential scalability for large-scale production. However, producing a homogeneous thin-film graphene with minimal defects remains a challenge. Studies of processing parameters, such as gas...

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Main Authors: Fauzi, Fatin Bazilah, Ismail, Edhuan, Ani, Mohd Hanafi, Syed Abu Bakar, Syed Noh, Mohamed, Mohd Ambri, Majlis, Burhanuddin Yeop, Md Din, Muhammad Faiz, Mohd Abid, Mohd Asyadi Azam
Format: Article
Language:English
English
English
Published: Cambridge University Press 2018
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Online Access:http://irep.iium.edu.my/63932/1/63932_A%20critical%20review%20of%20the%20effects%20of%20fluid%20dynamics.pdf
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http://irep.iium.edu.my/63932/3/63932_A%20critical%20review%20of%20the%20effects%20of%20fluid%20dynamics_WOS.pdf
http://irep.iium.edu.my/63932/
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/4375531BA688D44B0755702B50E7C1EA/S0884291418000390a.pdf/critical_review_of_the_effects_of_fluid_dynamics_on_graphene_growth_in_atmospheric_pressure_chemical_vapor_deposition.pdf
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Institution: Universiti Islam Antarabangsa Malaysia
Language: English
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Summary:Chemical vapor deposition (CVD) of graphene has attracted high interest in the electronics industry due to its potential scalability for large-scale production. However, producing a homogeneous thin-film graphene with minimal defects remains a challenge. Studies of processing parameters, such as gas precursors, flow rates, pressures, temperatures, and substrate types, focus on improving the chemical aspect of the deposition. Despite the many reports on such parameters, studies on fluid dynamic aspects also need to be considered since they are crucial factors in scaling up the system for homogenous deposition. Once the deposition kinetics is thoroughly understood, the next vital step is fluid dynamics optimization to design a large-scale system that could deliver the gas uniformly and ensure maximum deposition rate with the desired property. In this review, the influence of fluid dynamics in graphene CVD process was highlighted. The basics and importance of CVD fluid dynamics was introduced. It is understood that the fluid dynamics of gases can be controlled in two ways: via reactor modification and gas composition. This paper begins first with discussions on horizontal tubular reactor modifications. This is followed by mechanical properties of the reactant gasses especially in terms of dimensionless Reynolds number which provides information on gas flow regime for graphene CVD process at atmospheric pressure. Data from the previous literature provide the Reynolds number for various gas compositions and its relation to graphene quality. It has been revealed that hydrogen has a major influence on the fluid dynamic conditions within the CVD, hence affecting the quality of the graphene produced. Focusing on atmospheric pressure CVD, suggestions for up-scaling into larger CVD reactors while maintaining similar fluid properties were also provided.