Hierarchical porous carbons (HPCs) have been successfully prepared by a facile carbonization and subsequent CO2 activation process using corncob as a natural carbon precursor and Mg(C2H3O2)2 as a MgO nano-template precursor. The prepared corncob-based hierarchical porous carbons (C-HPCs) with desirable micropores and mesopores feature the excellent absorbency of gas (i.e., CO2 and CH4) and solution (i.e., methylene blue (MB)). Increasing the ratio of Mg(C2H3O2)2/corncob enlarged the specific surface area up to 1004 m2/ g, micropore and mesopore volumes, CO2, CH4, and MB adsorption capacities (112, 31 and 230 mg/g after 325 min, respectively). The results indicated that the pore structures of C-HPCs can be easily and suitably controlled by the amount of the template precursor and CO2 activation effecting concurrently, which leads to fascinating adsorption capacity for CO2, CH4, and MB.

    Abstract
        Graphic abstract
    1 Introduction
    2 Materials and methods
        2.1 Preparation and activation of MgO-templated mesoporous carbons
        2.2 Characterization of C-HPCs
    3 Results and discussion
        3.1 Structural characterizations of activated templated carbons
        3.2 CO2 and CH4 capture capacity
        3.3 Adsorption of MB
    4 Conclusion
    Acknowledgements 
    References

• Zhi‑Yuan Feng(Department of Chemistry, Yanbian University)
• Long‑Yue Meng(Department of Chemistry, Yanbian University, Department of Environmental Science, Yanbian University)