How to Recognize and Control Interfacial Phenomena That Hinder the Advancement of Clean Energy Technologies

Engineering

• Nuclear Energy 100%
• Degradation Mechanism 100%
• Interfacial Layer 100%
• Clean Energy Technology 100%
• Cross Section 50%
• High Resolution 50%
• Porosity 50%
• Induced Stress 50%
• Spectral Feature 50%
• Corrosion Mechanism 50%
• Clean Energy 50%
• Battery Material 50%
• Monoclinic 50%
• Energy Storage 50%
• Compressive Stress 50%
• Direct Correlation 50%
• Electrochemical Energy Storage 50%
• Cycle Life 50%
• Secondary Phase 50%
• Safety Concern 50%
• Energy Transition 50%
• Phase Particle 50%
• Energy Storage Application 50%
• Critical Infrastructure 50%
• Lithium Metal Battery 50%
• Electrolyte Additive 50%
• Equivalent Circuit Model 50%

Material Science

• Zirconia 100%
• Lithium 100%
• Corrosion 50%
• Dielectric Spectroscopy 50%
• Oxide Compound 50%
• Scanning Kelvin Probe 50%
• Electronic Circuit 50%
• Anode 50%
• Battery Material 50%
• Zirconium Alloy 50%
• Tetragonal Zirconia 50%
• Elemental Analysis 50%
• Energy-Dispersive X-Ray Spectroscopy 50%
• Lithium Metal Battery 50%
• Electrolyte Additive 50%
• Metal-Oxide Interface 50%