The Application of Hollow Carbon Nanofibers Prepared by Electrospinning to Carbon Dioxide Capture

Abstract: Coaxial electrospinning has been considered a straightforward and convenient method for producing hollow nanofibers. Therefore, the objective of this study was to develop hollow activated carbon nanofibers (HACNFs) for CO2 capture in order to reduce emissions of CO2 to the atmosphere and mitigate global warming. Results showed that the sacrificing core could be decomposed at carbonization temperatures above 900 °C, allowing the formation of hollow nanofibers. The average outer diameters of HACNFs ranged from 5… Show more

“…Both isosteric enthalpies of adsorption are comparable to adsorption enthalpies of activated electrospun carbon nanofibres in literature. 57 The more distinctive decrease of the isosteric enthalpy of adsorption for high O 2 -flow can be linked to a higher degree of surface oxygen due to the partial carbon oxidation at high O 2 -flow ( Table 1 ), which probably lowers the binding affinity towards CO 2 due to the increased number of acidic groups on the surface.…”

Post-treatment strategies for pyrophoric KOH-activated carbon nanofibres

“…Both isosteric enthalpies of adsorption are comparable to adsorption enthalpies of activated electrospun carbon nanofibres in literature. 57 The more distinctive decrease of the isosteric enthalpy of adsorption for high O 2 -flow can be linked to a higher degree of surface oxygen due to the partial carbon oxidation at high O 2 -flow ( Table 1 ), which probably lowers the binding affinity towards CO 2 due to the increased number of acidic groups on the surface.…”

Post-treatment strategies for pyrophoric KOH-activated carbon nanofibres

“…Porous organic networks have been studied for use as gas adsorbents [1][2][3][4][5][6][7], owing to their high surface area and microporosity [8,9], the tuneability of their organic chemical structures and microstructures for high adsorption efficiency, and selectivity to a targeted gas [1,[10][11][12]. Capturing carbon dioxide (CO 2 ) using organic porous materials has drawn particular attention [13,14], yielding many adsorbents that exhibit high adsorption quantity with selectivity.…”

Rearranged Copolyurea Networks for Selective Carbon Dioxide Adsorption at Room Temperature

An Overview of Extrinsic Strategies of Self-healing Materials