Quantitative analysis of structure and bandgap changes in graphene oxide nanoribbons during thermal annealing

Keyphrases

• Structure Analysis 100%
• Thermal Annealing 100%
• Band Gap 100%
• Graphene Oxide Nanoribbons 100%
• Wide Band Gap Semiconductors 28%
• Oxygen-containing Functional Groups 28%
• Structural Change 14%
• Precision Control 14%
• Chemical Changes 14%
• Chemical Composition 14%
• Cyclic Voltammetry 14%
• X-ray Photoelectron Spectroscopy 14%
• Near-zero 14%
• Small Changes 14%
• Graphene 14%
• Annealing 14%
• Two-state 14%
• Spectroscopic Measurement 14%
• Progressive Change 14%
• Aberration-corrected Scanning Transmission Electron Microscopy 14%
• Metallic State 14%
• Straightforward Method 14%
• Thermal Annealing Temperature 14%
• Oxidized Graphene 14%
• Semimetal 14%
• Graphene Nanoribbon 14%
• Graphitic Layers 14%
• Graphene Structure 14%

Material Science

• Annealing 100%
• Graphene Oxide 100%
• Nanoribbon 100%
• Graphene 37%
• Wide Bandgap Semiconductor 25%
• Cyclic Voltammetry 12%
• X-Ray Photoelectron Spectroscopy 12%
• Scanning Transmission Electron Microscopy 12%
• Semimetals 12%

Chemical Engineering

• Graphene 100%
• Functional Group 10%
• Metalloids 10%