WHITE PAPER
Explore the carbon credit market, from capture and storage to divesting.
The carbon market has matured into a multi-billion-dollar global market, helping to shape the way we mitigate climate change.
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WHITE PAPER
Understanding the science behind Hard-Rock carbon storage.
Explore CO2 Lock's groundbreaking carbon sequestration system: a sustainable, scalable, permanent solution for global CO2 emissions.
Purpose
The carbon market has now shifted from experimentation to exponential growth.
“Carbon markets are essential to global climate progress—but
they cannot scale without the full and confident engagement of
the business community.” — VCMI, 2025
MARKET EVOLUTION
Quality matters more than ever.
Now, as the market matures, only credits with robust, independently verified impact will remain credible as scrutiny intensifies.
impact
When done right, carbon credits fund reforestation, safeguard biodiversity, support local communities, and drive innovation in carbon removal technologies.
HOW IT WORKS
OUR PROCESS
Understanding in-situ carbon mineralization.
This natural, underground process offers a low-impact, long-term carbon storage solution that requires minimal surface disruption while ensuring carbon is securely sequestered beneath the Earth's surface.
EX-SITU MINERALIZATION
An ex-situ process harnesses surface-level brucite deposits.
STACKED ROCK STORAGE
Exposed rock formations react naturally with atmospheric CO₂ over time, increasing mineralization.
ENHANCED ROCK WEATHERING
Crushed rock is spread over land to accelerate CO₂ absorption through natural weathering.
MINERALIZATION REACTOR
A controlled environment optimizes chemical reactions to rapidly convert CO₂ into stable mineral forms.
OUR PROCESS
Understanding ex-situ carbon mineralization.
For an alternative approach, ex-situ mineralization involves extracting brucite-rich serpentinite from surface-level deposits. The extracted rock is processed through one of three methods to maximize carbon capture.
OUR PROCESS
Understanding ex-situ carbon mineralization.
For an alternative approach, ex-situ mineralization involves extracting brucite-rich serpentinite from surface-level deposits. The extracted rock is processed through one of three methods to maximize carbon capture:
