Strategic Objectives
• Master the fundamental physics of semiconducting photoelectrodes.
• Discover how to eliminate system complexity by merging photovoltaics and electrochemistry.
• Evaluate the latest materials for maximum solar-to-hydrogen efficiency.
• Understand the path to scaling sustainable, zero-emission fuel production.
The Core Challenge
Traditional green hydrogen relies on complex, multi-stage systems that lose efficiency and drive up costs through external wiring and separate electrolyzers.
01
The Dawn of Solar Fuels
02
The Hydrogen Economy
03
Principles of Photovoltaics
04
Electrochemical Foundations
05
Semiconductor Physics
06
The Photoelectrode Interface
07
Water Electrolysis
08
The Oxygen Evolution Reaction
09
Hydrogen Evolution Catalysis
10
Metal Oxide Photoanodes
11
III-V Semiconductors
12
Tandem Cell Architecture
13
Nanostructured Electrodes
14
Overpotential and Energy Loss
15
Corrosion and Durability
16
Artificial Photosynthesis
17
Characterization Techniques
18
Scaling the Technology
19
System Integration
20
Safety and Storage
21