Mineral carbonation (ex-situ)
Calcite: the versatile mineral shaping the future of carbon removal
Calcite, one of Earth's most common carbonate minerals, is key to both ancient formations and cutting-edge climate solutions.
Microorganisms with macro potential
Exploring biomineralising microbes for ex-situ long-term carbon storage
Looking into fundamental geochemical processes of mineral carbonation
Unravelling molecular-level processes to accelerate mineral carbonation of carbon dioxide
Novel carbon dioxide mineralisation initiated by direct air capture
Waste to treasure: Novel hybrid carbon dioxide mineralisation initiated by direct air capture
Closing the direct air capture-solar-mineral carbonation (DAC-Solar-MC) loop
Investigating novel absorption fluids to make DAC-Solar-MC a reality and mining more sustainable
Electrochemical mineral carbonation for more sustainable mining
Helping to reduce carbon emissions and manage waste streams in mining
Combining waste rock and beneficial microbes to enhance soil for carbon capture
Using natural soil processes to accelerate rock dissolution and CO2 sequestration rates
Identifying the geological properties of ultramafic rocks for carbon storage potential
Providing data to support the economics of mineral carbonation