2011
DOI: 10.1021/cm1028854
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Effect of Substrate Roughness and Feedstock Concentration on Growth of Wafer-Scale Graphene at Atmospheric Pressure

Abstract: The growth of large-area graphene on catalytic metal substrates is a topic of both fundamental and technological interest. We have developed an atmospheric pressure chemical vapor deposition (CVD) method that is potentially more cost-effective and compatible with industrial production than approaches based on synthesis under high vacuum. Surface morphology of the catalytic Cu substrate and the concentration of carbon feedstock gas were found to be crucial factors in determining the homogeneity and electronic t… Show more

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Cited by 284 publications
(292 citation statements)
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“…6). Surface roughness is known to produce graphene thickness variation on copper [143,144]. Since graphene growth on copper is surface limited, so smoothness Here dark purple areas highlighted by black arrows displays that even on low carbon solubility metal like copper, corrugations on starting substrate can result in formation of significant multilayer regions along with monolayer graphene [45].…”
Section: Growth On Cumentioning
confidence: 99%
“…6). Surface roughness is known to produce graphene thickness variation on copper [143,144]. Since graphene growth on copper is surface limited, so smoothness Here dark purple areas highlighted by black arrows displays that even on low carbon solubility metal like copper, corrugations on starting substrate can result in formation of significant multilayer regions along with monolayer graphene [45].…”
Section: Growth On Cumentioning
confidence: 99%
“…12 The quality of a thin film grown on a metal by surface adsorption is strongly affected by the surface morphology, as previously reported in the case of the graphene growth mechanism on a Cu foil. 22,23 In this regard, we introduced two methods (thermal annealing (TA) and thermal The h-BN nanosheets grown on the Cu foils were transferred onto SiO 2 (300 nm thick)/Si wafer as shown in Figure 2d−f. The number of impurity particles in the h-BN nanosheets grown on the TA-treated Cu foil is slightly decreased as compared to that in the h-BN nanosheets grown on the pristine Cu foil (Figure 2d,e).…”
mentioning
confidence: 99%
“…One of the most profound surface features on a Cu substrate is a rolling mark introduced by cold rolling during the manufacturing process. The most common means of eliminating rolling marks is electro-polishing [44,45]. However, this has proved to be ineffective and insufficient to suppress the nucleation density because, although electro-polishing removes many surface irregularities, there are many other sites at which graphene can nucleate, preventing any significant reduction of the nucleation density.…”
Section: Substrate Pretreatmentmentioning
confidence: 99%