Real-time observations of ultra-thin iron oxide film growth on oxygen-deficient YSZ(001)

Engineering & Materials Science

• Film growth 100%
• Iron oxides 82%
• Electron microscopy 81%
• Oxide films 78%
• Oxygen 50%
• Low energy electron diffraction 47%
• Substrates 44%
• Lattice constants 31%
• Coarsening 25%
• Temperature 16%

Physics & Astronomy

• iron oxides 68%
• yttria-stabilized zirconia 68%
• oxide films 56%
• electron microscopy 40%
• oxygen 38%
• energy 18%
• drying 15%
• electron diffraction 13%
• dissociation 12%
• temperature 9%
• configurations 8%

Chemical Compounds

• Iron Oxide 59%
• Liquid Film 30%
• Low Energy Electron Diffraction 20%
• Lattice Constant 17%
• Electron Particle 17%
• Spreading 16%
• Energy 14%
• Dissociation 11%
• Surface 5%