Overview
Accelerate the path to a low-carbon future with hands-on training! This program combines in-depth theoretical knowledge with practical laboratory experience to design and operate advanced electrochemical systems that convert CO2 into valuable fuels and chemicals. Learn to evaluate performance, optimize systems, and understand economic considerations for real-world applications.
What You’ll Learn:
- Fundamentals of eCO2R (electrochemical CO2 reduction)
- Electrolyzer designs: liquid, gas-fed, microfluidic
- Key performance metrics: efficiency, current density, stability
- Material selection: catalysts, membranes, electrolytes
- Techno-economic analysis for scaling
- Practical lab training on CO2 electrolyzers
- Hands-on experience with catalyst preparation and system operation
- Troubleshooting and optimizing lab-scale systems
Course Learning Outcomes: By the end of this training, participants will:
- Explain eCO2R principles and sustainability impact
- Select optimal designs and materials for electrolyzers
- Evaluate system performance and efficiency in the lab
- Analyze market viability and economic impact
- Operate lab-scale electrochemical systems for CO2 conversion
- Troubleshoot and optimize experimental setups
- Understand future trends and research directions
Who Should Join: Researchers & Engineers
Sustainability Experts
Graduate Students
Industry Professionals
Policymakers & Innovators
Why Join:
- Practical, research-based insights
- Real-world laboratory experience
- Understand applications and system operation hands-on
- Be part of the circular carbon economy revolution