Creating an abundant future for materials

Creating an abundant future for materials

Many critical technologies are bottlenecked by energy: how we convert it, how we store it, and how efficiently we use it. Each breakthrough in materials for energy conversion or storage opens the door to the next. At Dunia, we partner with pioneers who are serious about driving new futures with AI to build advanced materials that ultimately create clean, cheap energy.

Many critical technologies are bottlenecked by energy: how we convert it, how we store it, and how efficiently we use it. Each breakthrough in materials for energy conversion or storage opens the door to the next. At Dunia, we partner with pioneers who are serious about driving new futures with AI to build advanced materials that ultimately create clean, cheap energy.

Partner with us

Catalysts

Started with catalysts - 90% of chemical processes rely on catalysts. In the 1900s, the Haber-Bosch catalyst turned atmospheric nitrogen into fertilizer and fed the world. Today, we’re developing the catalysts that could convert CO₂ at scale—the Haber-Bosch of the 21st century.

Batteries

Expanded into batteries - Electric vehicles are replacing combustion engines, and energy storage is powering a new era. What if we could discover batteries so dense in energy that flying cars became possible?

Semiconductors

Next up, semiconductors - At Dunia, we’re developing the next generation of semiconductors for solar technology while discovering new EUV photoresists that unlock the future of computing.

Catalysts

Started with catalysts - 90% of chemical processes rely on catalysts. In the 1900s, the Haber-Bosch catalyst turned atmospheric nitrogen into fertilizer and fed the world. Today, we’re developing the catalysts that could convert CO₂ at scale—the Haber-Bosch of the 21st century.

Batteries

Expanded into batteries - Electric vehicles are replacing combustion engines, and energy storage is powering a new era. What if we could discover batteries so dense in energy that flying cars became possible?

Semiconductors

Next up, semiconductors - At Dunia, we’re developing the next generation of semiconductors for solar technology while discovering new EUV photoresists that unlock the future of computing.

Catalysts

Started with catalysts - 90% of chemical processes rely on catalysts. In the 1900s, the Haber-Bosch catalyst turned atmospheric nitrogen into fertilizer and fed the world. Today, we’re developing the catalysts that could convert CO₂ at scale—the Haber-Bosch of the 21st century.

Batteries

Expanded into batteries - Electric vehicles are replacing combustion engines, and energy storage is powering a new era. What if we could discover batteries so dense in energy that flying cars became possible?

Semiconductors

Next up, semiconductors - At Dunia, we’re developing the next generation of semiconductors for solar technology while discovering new EUV photoresists that unlock the future of computing.

Catalyzing the energy transition

Catalyzing the energy transition

The energy transition represents a once-in-a-lifetime opportunity and catalysts are just the beginning. We've expanded to batteries for energy storage, and envision next-generation semiconductor materials designed by AI. Our north star is the artificial leaf - the holy grail of energy production and carbon capture. A technology that could one day capture sunlight and CO₂ to produce fuels and chemicals at scale, completing the cycle of a truly sustainable energy future. Each step in our roadmap advances today’s markets while building toward tomorrow’s breakthroughs.

Discover the future

Discover the future

We invite forward-thinking businesses and technology pioneers to co-develop & license technologies discovered through AI-native materials innovation - scaling materials from lab to real-world impact.

We invite forward-thinking businesses and technology pioneers to co-develop & license technologies discovered through AI-native materials innovation - scaling materials from lab to real-world impact.