Constructing Hierarchical Porous Carbons With Interconnected Micro-mesopores for Enhanced CO2 Adsorption

Hainan Zhang; Zeming Wang; Xudong Luo; Jinlin Lu; Shengnan Peng; Yongfei Wang; Lu Han

doi:10.3389/fchem.2019.00919

Constructing Hierarchical Porous Carbons With Interconnected Micro-mesopores for Enhanced CO₂ Adsorption

Front Chem. 2020 Jan 15:7:919. doi: 10.3389/fchem.2019.00919. eCollection 2019.

Authors

Hainan Zhang¹, Zeming Wang², Xudong Luo¹, Jinlin Lu¹, Shengnan Peng¹, Yongfei Wang¹, Lu Han¹

Affiliations

¹ School of Materials and Metallurgy, University of Science and Technology Liaoning, Anshan, China.
² School of Chemical and Processing Engineering, University of Leeds, Leeds, United Kingdom.

Abstract

A high cost-performance carbon dioxide sorbent based on hierarchical porous carbons (HPCs) was easily prepared by carbonization of raw sugar using commercially available nano-CaCO₃ as a double-acting template. The effects of the initial composition and carbonization temperature on the micro-mesoporous structure and adsorption performance were examined. Also, the importance of post-activation behavior in the development of micropores and synthesis route for the formation of the interconnected micro-mesoporous structure were investigated. The results revealed excellent carbon dioxide uptake reaching up 2.84 mmol/g (25^oC, 1 bar), with micropore surface area of 786 m²/g, micropore volume of 0.320 cm³/g and mesopore volume of 0.233 cm³/g. We found that high carbon dioxide uptake was ascribed to the developed micropores and interconnected micro-mesoporous structure. As an expectation, the optimized HPCs offers a promising new support for the high selective capture of carbon dioxide in the future.

Keywords: activation; carbon dioxide adsorption; hierarchical porous carbons; micro-mesoporous structure; template method.