Analyses of thick lithium coatings deposited by sputter-evaporation and exposed to air

Chemistry

• Lithium 100%
• Evaporation 100%
• Procedure 80%
• Density 80%
• Sample 40%
• Reaction Temperature 40%
• Rate 40%
• Time 40%
• Cathode 40%
• Profilometry 40%
• Plasma 40%
• Stainless Steel 20%
• Application 20%
• Concentration 20%
• Adhesion 20%
• Electrochemistry 20%
• Liquid Film 20%
• Ambient Reaction Temperature 20%
• Weight 20%
• Magnetron Sputtering 20%
• Physical Property 20%
• Chemical Reactivity 20%
• Boron Atom 20%
• Crucible 20%
• Neutron Activation Analysis 20%
• Powder X-Ray Diffraction 20%
• Nuclear Reaction 20%
• Scanning Electron Microscopy 20%

Physics

• Lithium 100%
• Air 100%
• Coating 100%
• Evaporation 100%
• Deposition 66%
• Substrates 50%
• Neutrons 33%
• Quality 33%
• Temperature 33%
• Cathode 33%
• Utilization 16%
• Room Temperature 16%
• Magnetron Sputtering 16%
• Steel 16%
• Therapy 16%
• Nuclear Reaction 16%
• Boron 16%
• Scanning Electron Microscopy 16%
• Magnetron 16%
• Adhesion 16%
• Electrochemistry 16%
• Thermocouple 16%
• Powder X-Ray Diffraction 16%

Material Science

• Coating 100%
• Air 100%
• Density 66%
• Temperature 50%
• Cathode 33%
• Stainless Steel 16%
• Film 16%
• Magnetron Sputtering 16%
• Morphology 16%
• Boron 16%
• Scanning Electron Microscopy 16%
• Adhesion 16%
• Physical Property 16%
• X Ray Powder Diffraction 16%