Carbon
Bridge
OUR TECHNOLOGY
INPUT SOURCE MATERIALS
WASTE
Fermentation processes that occur in landfills, wineries, and corn ethanol production create biogas (mostly carbon dioxide and methane) which we can use as a source of carbon atoms for our conversion reaction.
BIOMASS
When plant matter undergoes pyrolysis (a process that heats the biomass up to very high temperatures in the absence of oxygen) a charcoal-like substance, called biochar, is created which we can use as a source of carbon atoms.
RENEWABLE
ENERGY
Energy to power the reactor can come from solar, nuclear, or other clean energy sources to ensure our gas conversion process is not reliant on fossil fuels.
GAS CONVERSION
Our core innovations are around reaction optimization and materials pre-processing with secondary innovations in demand-response.
Initially, we will focus our efforts on building proof-of concept reactor that converts biogas into carbon monoxide, a precursor industrial gas used to create many valuable products.
We will further optimize our system by improving catalyst scaling, developing modular units and enhancing reliability and efficiency.
READY TO HELP?
We are looking for a chemical engineer to join our team. If working on impactful climate tech is your dream, apply on our job listings page.
INDUSTRIAL USES
PLASTICS
Metal oxides have a wide variety of applications including industrial catalysts, superconductors, semiconductors, ceramics, anti-fungal agents and even in medicinal applications. Metal oxides production is one of the most difficult sectors to decarbonize, which is why it is one of our key targets.
METAL OXIDES
Metal oxides have a wide variety of applications including industrial catalysts, superconductors, semiconductors, ceramics, anti-fungal agents and even in medicinal applications. Metal oxides production is one of the most difficult sectors to decarbonize, which is why it is one of our key targets.