Study of Amine Functionalized Mesoporous Carbon as CO2 Storage Materials

Carbon sequestration via the carbon capture and storage (CCS) method is one of the most useful methods of lowering CO2 emissions in the atmosphere. Ethylenediamine (EDA)- and triethylenetetramine (TETA)-modified mesoporous carbon (MC) has been successfully prepared as a CO2 storage material. The effect of various concentrations of EDA or TETA added to MC, as well as activated carbon (AC), on their CO2 adsorption capacity were investigated using high-purity CO2 as a feed and a titration method to quantitatively measure the amount of adsorbed CO2. The results showed that within 60 min adsorption time, MCEDA49 gave the highest CO2 capacity adsorption (19.68 mmol/g), followed by MC-TETA30 (11.241 mol/g). The improvement of CO2 adsorption capacity at low TETA loadings proved that the four amine functional groups in TETA gave an advantage to CO2 adsorption. TETA-functionalized MC has the potential to be used as a CO2 storage material at a low concentration. Therefore, it is relatively benign and friendly to the environment.

Automated summary

Carbon sequestration through carbon capture and storage (CCS) method is an effective way to reduce CO2 emissions in the atmosphere. The study shows that ethylenediamine (EDA) and triethylenetetramine (TETA) modified mesoporous carbons have high CO2 adsorption capacities, with TETA-functionalized MC showing potential for use as a low concentration CO2 storage material.