Lattice charge models and core level shifts in disordered alloys

Chemical Compounds

• Core Level 75%
• Alloy 43%
• Disorder 43%
• Madelung Synthesis 40%
• Chemical Species 27%
• Binding Energy 22%
• Madelung Potential 21%
• Physical Quantity 19%
• Energy 17%
• Charge Transfer 17%
• Strength 15%
• Electronegativity 13%
• Electrostatic Potential 13%
• Photoelectron Spectroscopy 12%
• Valence 10%
• Entropy 10%
• Ground State 9%
• Chemical Element 9%
• Electron Particle 6%

Engineering & Materials Science

• Core levels 100%
• Binding energy 13%
• Atoms 12%
• Charge transfer 10%
• Screening 7%
• Electronegativity 7%
• Photoelectron spectroscopy 7%
• Chemical elements 6%
• Ground state 6%
• Charge distribution 6%
• Binary alloys 6%
• Chemical analysis 5%
• Electrostatics 4%
• Electrons 4%
• X rays 3%
• Entropy 3%

Physics & Astronomy

• shift 37%
• disorders 12%
• screening 7%
• charge transfer 7%
• binding energy 7%
• atoms 6%
• chemical elements 5%
• radii 5%
• binary alloys 4%
• x ray spectroscopy 4%
• charge distribution 4%
• energy 3%
• photoelectron spectroscopy 3%
• interactions 3%
• electrostatics 3%
• valence 3%
• entropy 3%
• ground state 2%
• approximation 2%
• electrons 1%