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

Engineering & Materials Science

• Nanoribbons 100%
• Graphene oxide 80%
• Energy gap 62%
• Annealing 54%
• Chemical analysis 36%
• Hot Temperature 26%
• Graphene 16%
• Metalloids 12%
• Semiconductor materials 12%
• Graphene nanoribbon 11%
• Oxygen 11%
• Cyclic voltammetry 9%
• Aberrations 9%
• Functional groups 9%
• X ray photoelectron spectroscopy 8%
• Transmission electron microscopy 7%
• Scanning electron microscopy 5%
• Tuning 5%
• Temperature 2%

Medicine & Life Sciences

• graphene oxide 85%
• Carbon Nanotubes 75%
• Hot Temperature 43%
• Graphite 32%
• Semiconductors 22%
• Photoelectron Spectroscopy 11%
• Oxygen 11%
• Scanning Transmission Electron Microscopy 10%
• Temperature 5%

Chemical Compounds

• Nanoribbon 64%
• Graphene Oxide 44%
• Annealing 43%
• Band Gap 41%
• Graphene 16%
• Semiconductor 12%
• Scanning Transmission Electron Microscopy 9%
• Cyclic Voltammetry 5%
• X-Ray Photoelectron Spectroscopy 5%
• Chemical Transformation 5%