Develop Advanced CO₂ Capture and Conversion Technologies: Design and optimize electrochemical and photochemical methods for efficient and selective CO₂ capture and conversion, leveraging AI-driven approaches to enhance catalyst discovery and process efficiency.

Engineer Scalable Solutions: Bridge fundamental research with scalable technologies to enable industrial implementation of carbon capture and utilization systems.

Create High-Value Products from CO₂: Focus on transforming captured CO₂ into fuels, chemicals, and materials that support a circular economy.

Enhance Energy Efficiency: Innovate processes that leverage renewable energy sources, minimizing energy input while maximizing carbon utilization.

Through innovative experimental technologies, we aim to significantly reduce greenhouse gas emissions and drive the transition to sustainable energy systems and circular economies. While our approach is fundamentally experimental, AI is leveraged to enhance catalyst discovery, process optimization, and accelerate the development of effective solutions.

We advance energy and storage by designing cutting-edge materials and processes that improve energy efficiency, reduce fossil fuel dependence, and integrate seamlessly with renewable energy. With AI supporting experimental research, we optimize material performance and process efficiencies. Aligned with ESG principles, our work drives decarbonization, resource efficiency, and long-term environmental sustainability.