At Gigadac, we develop next-generation CO₂ capture systems that are faster, & more energy-efficient than traditional methods. Our proprietary technology is a engineered to deliver high pace performance with low environmental impact.
Built for scalability, our modular solutions are designed to adapt to projects of any size-from pilot installations to global carbon removal networks.
From technical performance to real-world scalability, our CO₂ capture solutions are designed to deliver lasting value—for the planet, for partners, and for progress.
Our technology removes CO₂ faster and cleaner with optimized airflow and reactivity.
Lower thermal input and smart system design reduce operating costs and environmental impact.
Deploy anywhere—from small sites to multi-megaton projects—with ease and flexibility.
Built for integration with renewables and adaptable to evolving climate needs.
Field-tested under real conditions for reliability, consistency, and long-term impact.
Engineered to operate across diverse environments and regulatory landscapes worldwide.
Harrison is a repeat founder who built a sustainable agriculture company and beverage brand to over 20,000 stores in the U.S. and Japan, and is a National Science Foundation panel reviewer in 2025.
Barrett is a former Lockheed Martin engineer who has led advanced systems design at Frasca International and his consulting firm since 2017.
Dr. Yannick Eatmon holds a Ph.D. in Chemical Engineering from Princeton and a B.S. from MIT, with deep expertise in advanced separation processes.
Our progress is fueled in part by the support of PARA, a forward-thinking organization investing in impactful climate technology. Their belief in our mission strengthens our ability to scale, and lead in carbon removal.
At Gigadac, we develop next-generation CO₂ capture systems that are faster, and more energy-efficient than traditional methods. Our proprietary technology is a engineered to deliver high pace performance with low environmental impact.