Redox-Functionalized Semiconductor Interfaces for Photoelectrochemical Separations

Keyphrases

• Redox 100%
• Electrical Energy 100%
• Semiconductor Interfaces 100%
• Photoelectrochemical 100%
• Separation Process 66%
• Photoelectrochemical System 66%
• Ferrocene 66%
• Electrochemical Cell 66%
• Redox-mediated 66%
• Heavy Metals 33%
• Homogeneous-heterogeneous 33%
• Solar Energy 33%
• Low Voltage 33%
• Tunability 33%
• Molecular Selectivity 33%
• TiO2 Nanorods 33%
• Electrosorption 33%
• Overall Impact 33%
• Sustainability Impact 33%
• Polyvinyl 33%
• Electrical Energy Consumption 33%
• Metal Oxyanions 33%
• Non-renewable Energy 33%
• Electrochemical Separation 33%
• Selective Electrosorption 33%
• Decarbonization 33%
• Spontaneous Redox Reaction 33%
• Functionalized TiO2 33%

Chemical Engineering

• Electrosorption 100%
• Separation Method 100%
• Nanorod 50%
• Titanium Dioxide 50%
• Heavy Metal 50%

Material Science

• Electrochemical Cell 100%
• Nanorod 50%
• Heavy Metal 50%
• Titanium Dioxide 50%