Reprint of “The low temperature oxidation of lithium thin films on HOPG by O₂ and H₂O”

Physics & Astronomy

• pyrolytic graphite 100%
• lithium 68%
• oxidation 57%
• thin films 40%
• energy dissipation 31%
• electron energy 29%
• Auger spectroscopy 25%
• electron spectroscopy 25%
• high resolution 23%
• lithium hydroxides 22%
• graphite 22%
• spectroscopy 20%
• lithium hydrides 20%
• vacuum chambers 13%
• ultrahigh vacuum 12%
• film thickness 10%
• fusion 10%
• gases 6%

Engineering & Materials Science

• Lithium 86%
• Graphite 77%
• Thin films 73%
• Oxidation 68%
• Monolayers 63%
• Electron energy loss spectroscopy 52%
• Temperature 31%
• Auger electron spectroscopy 30%
• Ultrahigh vacuum 15%
• Hydrides 12%
• Film thickness 10%
• Fusion reactions 7%
• Gases 5%

Chemical Compounds

• Graphite 57%
• High Resolution Electron Energy Loss Spectroscopy 53%
• Monolayer 48%
• Oxidation Reaction 35%
• Liquid Film 31%
• Auger Electron Spectroscopy 29%
• Lithium Hydride 19%
• Vacuum Chamber 18%
• Lithium Hydroxide 17%
• Surface 8%
• Environment 7%
• Gas 6%