We design natural recycling machines
Our technology sits at the intersection of cutting-edge AI, biology, chemistry and industrial-scale engineering.
With this unique combination, waste becomes feedstock, and circularity becomes the default.
Why Enzymes?
Enzymes are highly selective biological catalysts that can operate at room temperature and atmospheric pressure.
By harnessing the power of AI, we design enzymes for industrial-scale recycling processes.
These super-charged enzymes produce high-purity products from mixed feedstock at low-impact, low-cost, and with full supply chain compatibility.
This is the route to true circularity at global scale.
mixed waste
(Feedstock)
output
(Product)
temperature
(Energy)
operating cost
(OpEx)
capital cost
(CapEx)
Recycling
Recycling
We have built the definitive technology for materials circularity
Our AI-enabled platform designs enzymes that deconstruct materials at the molecular level.
Our vertically integrated platform
Design Brief
We combine deep knowledge of biochemistry with materials science and process engineering to blueprint the most effective solution for each type of plastic.
Evolution
Using AI and advanced lab-based screening, we navigate biological complexity to uncover enzyme variants. This is billions of years of evolution in a matter of days.
Scale & Manufacture
We integrate our innovative processes with tried and tested design and manufacturing to minimise cost and technical risk. Our processes scale quickly and deploy globally.
Enzyme Discovery & Design
We leverage generative AI and physics-based modelling with unique biological datasets and know-how to create enzymes with novel functionalities.
Process Optimisation
We optimise process parameters to deliver industry best-in-class yields. Our data-driven approach reduces emissions and improves scalability.
Our Ecosystem:
