Boron Phosphide Protective Coatings for Hazardous Radioactive Waste and Geothermal Power Applications

Engineering & Materials Science

• Protective coatings 66%
• Radioactive wastes 65%
• Boron 60%
• Corrosion 32%
• Interfacial energy 26%
• Brines 25%
• Stainless steel 18%
• Photoelectron spectroscopy 18%
• Plasma applications 16%
• Boltzmann equation 16%
• Plasma enhanced chemical vapor deposition 15%
• Zeta potential 15%
• Surface potential 14%
• Potentiodynamic polarization 14%
• Electrochemical impedance spectroscopy 13%
• Corrosion protection 12%
• Fourier transforms 10%
• Microscopes 10%
• Electron microscopes 10%
• Containers 9%
• Corrosion resistance 9%
• X rays 9%
• Infrared radiation 9%
• Capacitance 9%
• Scanning 8%
• Coatings 8%
• Substrates 7%
• Networks (circuits) 5%

Chemical Compounds

• Geothermal Power 100%
• Radioactive Waste 71%
• Boron Atom 46%
• Protective 44%
• Coating Agent 32%
• Liquid Film 25%
• Corrosion 23%
• Interfacial Energy 21%
• Application 16%
• Vapor Deposition Process 13%
• Plasma Enhanced Chemical Vapour Deposition 12%
• Open Circuit Potential 12%
• Surface Potential 11%
• Photoelectron Spectroscopy 10%
• Corrosion Resistance 9%
• Zeta Potential 9%
• Impedance Spectroscopy 8%
• Polarization 8%
• Force 7%
• Plasma 6%
• Chloride 6%
• Environment 6%
• Electron Particle 5%