Carbon Capture Chemicals are innovative solutions designed to trap and store carbon dioxide (CO₂) emissions from industrial processes, power plants, and the atmosphere. These chemicals—such as amines, metal-organic frameworks (MOFs), and sodium hydroxide—absorb or chemically bind CO₂, preventing its release into the environment. Advanced technologies like direct air capture (DAC) and carbon mineralization further enhance efficiency, converting CO₂ into stable compounds or reusable materials. By reducing greenhouse gas levels, these chemicals play a critical role in combating climate change and supporting sustainable industrial practices. Their development aligns with global net-zero goals, offering a pathway to cleaner energy and a circular carbon economy.

Activated Carbon

Activated carbon is a highly porous, adsorptive material processed to have an exceptionally large surface area (typically 500-1500 m²/g) through thermal or chemical activation of carbon-rich source materials. This versatile adsorbent exists in powdered (PAC), granular (GAC), pelletized, and extruded forms, with pore structures specifically engineered for different applications ranging from water purification to gas treatment. Its extended surface area and complex pore network (micropores <2nm, mesopores 2-50nm, macropores >50nm) enable superior physical adsorption of contaminants through van der Waals forces, as well as chemical interactions with surface functional groups.