Carbon Conversion Technology

Transforming CO₂ into materials

We're pioneering novel pathways to convert captured carbon into high-performance textile materials, building a new foundation for manufacturing.

Explore Our Technology Partner With Us

CO₂ Primary Feedstock

3 Carbon Source Pathways

Technology

A new approach to materials

Carbon Feedstocks

We're exploring multiple CO₂ source pathways—including direct air capture, carbon removal from the ocean, and bio-based feedstocks—to supply our conversion process.

Monomer Synthesis

Conversion of carbon feedstocks into the essential chemical building blocks for polymer production—the monomers that form the backbone of next-generation materials.

Polymer Development

R&D into polymerizing carbon-derived monomers into high-performance polymers for textile and industrial applications.

Process

From atmosphere to textile

Source

Carbon sourced from air, ocean, or bio-based feedstocks

Convert

Conversion of carbon into target monomers

Polymerize

Polymerization into high-performance polymers

Manufacture

Production of next-generation materials

Vision

Closing the loop

The textile industry relies heavily on fossil fuel-based feedstocks and accounts for a significant share of global emissions. We're developing technology to change this equation by converting carbon into the materials we wear and use every day.

In collaboration with UCLA's REACT Lab at the Samueli School of Engineering, we're exploring carbon conversion pathways that offer a new approach to materials manufacturing.

69% of global fiber production is synthetic, derived primarily from fossil fuels^¹

6–8% of global greenhouse gas emissions come from the textile industry^²

Get In Touch

Let's build the future together

Whether you're an investor, research partner, or industry leader exploring new materials, we'd love to hear from you.

hello@fractilelabs.com