reimagining mine waste
Certain mine tailings can permanently remove CO2 directly from the atmosphere through a process known as carbon mineralization.
We have developed proprietary technologies to optimize and accelerate that process, creating the potential for gigaton-scale capture and permanent storage of atmospheric carbon dioxide.
A World Leading Team
Our company is grounded in the science and thought leadership of Professor Greg Dipple and his research lab at the University of British Columbia, Vancouver, Canada. Prof. Dipple pioneered the field of carbon mineralization in tailings and remains at the forefront of the research and deployment of technologies at scale.
Driven by Science and Impact
Due to the urgent need for climate solutions, we are bringing the research out of the lab in order to scale rapidly. The driving motivation behind forming Carbin Minerals is to have as large a climate impact as possible, and to that end we are working toward gigatonne scale, durable carbon dioxide removal. By tapping into one of the largest carbon storage reservoirs on Earth, ultramafic rocks, we are working on a solution that will tangibly reduce the amount of carbon dioxide in our atmosphere and truly turn the dial on climate change.
Critical Metals
The rapid deployment of clean energy technologies – essential for the energy transition – will require 4-6 times the supply of critical minerals by 2040. To achieve the Paris Targets, the mining of these metals must be net-zero.
We help producers of critical minerals get to net-zero and beyond.
Critical Carbon Removal
Current global carbon removal capacity is several orders of magnitude lower than the billions of tonnes per year that is needed to keep global warming below 1.5 oC or even 2 oC.
For leading climate investors and corporations with net-zero and net-negative ambitions, we provide the highest quality carbon removal credits; verifiable and permanent.
OUR partners
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