Topics
polystyreneChemical substance
recrystallizationElection
nucleationMilitary conflict
chemical vapor depositionElection
GrapheneChemical substance
grapheneChemical substance
Controlling the metal catalyst surface structure is a critical factor to achieve growth of large graphene domains. In this prospect, we explored the annealing process to create an oxide layer and subsequent recrystallization of Cu foil for growth of large graphene domain by the atmospheric pressure chemical vapor deposition (AP-CVD) technique. We revealed the transformation of Cu surface crystallographic structures in every step of annealing process by electron back-scattered diffraction analysis. Initially, electroless polished Cu foils are annealed in Ar and then in H2 atmosphere to obtain a smoother surface with reduced graphene nucleation sites. The transformation of Cu grain structures at various annealing steps was confirmed, where th...
High-quality, large-area, single-layer graphene was directly grown on top of a quartz substrate by a...
Here, we report the synthesis of high quality monolayer graphene on the pre-treated copper (Cu) foil...
A simple method is presented for synthesizing large single crystal graphene domains on melted copper...
Graphene was synthesized on Cu foil and film by atmospheric pressure chemical vapor deposition (CVD)...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
We show millimeter-scale graphene single crystals synthesized on commercial Cu foils by the atmosphe...
The mechanism by which Cu catalyst pretreatments control graphene nucleation density in scalable che...
In this work, we uncover a mechanism initiating spontaneous nucleation of graphene flakes on copper ...
Abstract As grown graphene by chemical vapor deposition typically degrades greatly due to the presen...
Chemical vapor deposition (CVD) is the most promising method for the preparation of high-quality and...
To exploit the extraordinary property of graphene in practical electrical and optical devices, it is...
The mechanism by which Cu catalyst pretreatments control graphene nucleation density in scalable che...
Single-layer and high-quality graphene was synthesized over Cu foil by atmospheric pressure chemical...
Graphene has unrivalled properties and is heralded as a revolutionary material for the 21st century....
A systematic study of the parameter space of graphene chemical vapor deposition (CVD) on polycrystal...
High-quality, large-area, single-layer graphene was directly grown on top of a quartz substrate by a...
Here, we report the synthesis of high quality monolayer graphene on the pre-treated copper (Cu) foil...
A simple method is presented for synthesizing large single crystal graphene domains on melted copper...
Graphene was synthesized on Cu foil and film by atmospheric pressure chemical vapor deposition (CVD)...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
We show millimeter-scale graphene single crystals synthesized on commercial Cu foils by the atmosphe...
The mechanism by which Cu catalyst pretreatments control graphene nucleation density in scalable che...
In this work, we uncover a mechanism initiating spontaneous nucleation of graphene flakes on copper ...
Abstract As grown graphene by chemical vapor deposition typically degrades greatly due to the presen...
Chemical vapor deposition (CVD) is the most promising method for the preparation of high-quality and...
To exploit the extraordinary property of graphene in practical electrical and optical devices, it is...
The mechanism by which Cu catalyst pretreatments control graphene nucleation density in scalable che...
Single-layer and high-quality graphene was synthesized over Cu foil by atmospheric pressure chemical...
Graphene has unrivalled properties and is heralded as a revolutionary material for the 21st century....
A systematic study of the parameter space of graphene chemical vapor deposition (CVD) on polycrystal...
High-quality, large-area, single-layer graphene was directly grown on top of a quartz substrate by a...
Here, we report the synthesis of high quality monolayer graphene on the pre-treated copper (Cu) foil...
A simple method is presented for synthesizing large single crystal graphene domains on melted copper...
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