Design and development of 3D hierarchical ultra-microporous CO2-sieving carbon architectures for potential flow-through CO2 capture at typical practical flue gas temperatures
(2020)
Journal Article
Liu, X., Liu, J., Sun, C., Liu, H., Wang, W., Smith, E., Jiang, L., Chen, X., & Snape, C. (2020). Design and development of 3D hierarchical ultra-microporous CO2-sieving carbon architectures for potential flow-through CO2 capture at typical practical flue gas temperatures. Journal of Materials Chemistry A, 8(33), 17025-17035. https://doi.org/10.1039/d0ta01417f
Developing effective carbon materials for post-combustion CO2 capture (PCC) has received great attentions over many recent years, owing to their desirable adsorption−desorption performance and exceptional thermo-oxidative stability compared to virtua... Read More about Design and development of 3D hierarchical ultra-microporous CO2-sieving carbon architectures for potential flow-through CO2 capture at typical practical flue gas temperatures.