Interaction of Cl₂ with the Au(111) surface in the temperature range of 120 to 1000 K

Engineering & Materials Science

• Activation energy 28%
• Adatoms 52%
• Adsorption 13%
• Atoms 42%
• Auger electron spectroscopy 63%
• Binding energy 43%
• Calibration 10%
• Chlorine 100%
• Core levels 21%
• Desorption 94%
• Diffraction patterns 38%
• Gold 14%
• Heating 9%
• Low energy electron diffraction 91%
• Mass spectrometers 19%
• Photoelectron spectroscopy 23%
• Single crystal surfaces 27%
• Substrates 9%
• Temperature 32%
• Temperature programmed desorption 41%
• Thermochemistry 22%
• Ultrahigh vacuum 21%
• Ultraviolet spectroscopy 23%
• X ray photoelectron spectroscopy 49%
• X rays 12%

Physics & Astronomy

• activation energy 15%
• adatoms 20%
• adsorption 7%
• atoms 15%
• Auger spectroscopy 30%
• binding energy 17%
• cells 5%
• chlorides 20%
• chlorine 65%
• coefficients 5%
• crystal surfaces 10%
• curves 5%
• desorption 71%
• diffraction patterns 16%
• dissociation 8%
• dosage 6%
• electron diffraction 26%
• electron spectroscopy 29%
• energy 12%
• estimates 5%
• gold 7%
• heating 6%
• interactions 32%
• mass spectrometers 10%
• occupation 10%
• photoelectron spectroscopy 8%
• radii 6%
• saturation 7%
• shift 6%
• single crystals 6%
• surface layers 8%
• temperature 24%
• thermochemistry 14%
• ultrahigh vacuum 10%
• x rays 4%

Chemical Compounds

• Adatoms 24%
• Adsorption 5%
• Auger Electron Spectroscopy 34%
• Binding Energy 18%
• Chloride 11%
• Chlorine 44%
• Core Level 12%
• Desorption 62%
• Diffusion 6%
• Dissociation 7%
• Dose 7%
• Energy 4%
• Liquid Film 4%
• Low Energy Electron Diffraction 39%
• Reaction Activation Energy 14%
• Single Crystal Surface 13%
• Surface 26%
• Thermochemistry 11%
• Ultra-Violet Photoelectron Spectroscopy 13%
• Vacuum 8%
• Work Function 35%
• X-Ray Photoelectron Spectroscopy 7%