Add to ORKGThe mechanism by which Cu catalyst pretreatments control graphene nucleation density in scalable chemical vapor deposition (CVD) is systematically explored. The intrinsic and extrinsic carbon contamination in the Cu foil is identified by time-of-flight secondary ion mass spectrometry as a major factor influencing graphene nucleation and growth. By selectively oxidizing the backside of the Cu foil prior to graphene growth, a drastic reduction of the graphene nucleation density by 6 orders of magnitude can be obtained. This approach decouples surface roughness effects and at the same time allows us to trace the scavenging effect of oxygen on deleterious carbon impurities as it permeates through the Cu bulk. Parallels to well-known processes i...
We systematically study the effects of residual oxygen in the bulk of Cu foil catalysts on the chemi...
Commonly used techniques for cleaning copper substrates before graphene growth via chemical vapor de...
Chemical vapor deposition (CVD) enables the large-scale growth of high-quality graphene film and exh...
The mechanism by which Cu catalyst pretreatments control graphene nucleation density in scalable che...
The mechanism by which Cu catalyst pretreatments control graphene nucleation density in scalable che...
Commercially available Cu foils are leading candidates as substrates employed for the generation of ...
Commercially available Cu foils are leading candidates as substrates employed for the generation of ...
Commercially available Cu foils are leading candidates as substrates employed for the generation of ...
Commercially available Cu foils are leading candidates as substrates employed for the generation of ...
One of the more common routes to fabricate graphene is by chemical vapor deposition (CVD). This is p...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
One of the more common routes to fabricate graphene is by chemical vapor deposition (CVD). This is p...
We systematically study the effects of residual oxygen in the bulk of Cu foil catalysts on the chemi...
Commonly used techniques for cleaning copper substrates before graphene growth via chemical vapor de...
Chemical vapor deposition (CVD) enables the large-scale growth of high-quality graphene film and exh...
The mechanism by which Cu catalyst pretreatments control graphene nucleation density in scalable che...
The mechanism by which Cu catalyst pretreatments control graphene nucleation density in scalable che...
Commercially available Cu foils are leading candidates as substrates employed for the generation of ...
Commercially available Cu foils are leading candidates as substrates employed for the generation of ...
Commercially available Cu foils are leading candidates as substrates employed for the generation of ...
Commercially available Cu foils are leading candidates as substrates employed for the generation of ...
One of the more common routes to fabricate graphene is by chemical vapor deposition (CVD). This is p...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
Producing graphene with minimal crystalline defects and a controllable number of layers is highly de...
One of the more common routes to fabricate graphene is by chemical vapor deposition (CVD). This is p...
We systematically study the effects of residual oxygen in the bulk of Cu foil catalysts on the chemi...
Commonly used techniques for cleaning copper substrates before graphene growth via chemical vapor de...
Chemical vapor deposition (CVD) enables the large-scale growth of high-quality graphene film and exh...