Insight into controllability and predictability of pore structures in pitch-based activated carbons

Tailoring porosity of pitch-based activated carbons (PACs) on a large scale is of high importance and usually achieved by introducing additives or templates and adjusting activation conditions. Since pitch is a kind of extraordinarily complex mixtures, it is highly necessary to investigate the effec...

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Bibliographic Details
Published in:Microporous and mesoporous materials 2018-11, Vol.271, p.118-127
Main Authors: Guan, Taotao, Zhao, Jianghong, Zhang, Guoli, Zhang, Dongdong, Han, Baixin, Tang, Nan, Wang, Jianlong, Li, Kaixi
Format: Article
Language:English
Subjects:
Activated carbons
Controllability
Pitch composition
Pore structures
Predictability
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Summary:Tailoring porosity of pitch-based activated carbons (PACs) on a large scale is of high importance and usually achieved by introducing additives or templates and adjusting activation conditions. Since pitch is a kind of extraordinarily complex mixtures, it is highly necessary to investigate the effect of pitch composition on pore structure of PACs. Herein, a coal-tar pitch was subdivided by solvent fractionation into toluene-soluble (TS), pyridine-soluble (PS), quinoline-soluble (QS), and quinoline-insoluble (QI) fractions followed by activation using KOH or steam, respectively, to obtain PACs. It is found that the formation of pores in PACs is significantly dependent on pitch composition and activation methods. The light fractions (TS and PS) are more favorable for pore development in the KOH-activated carbons, whereas pores in the H2O-activated carbons are easily achieved by using the heavy fractions (QS and QI). The possible pore-formation mechanisms were also proposed, which indicates that the big differences intrinsically originate from the chemical properties (such as molecular size, structures, reactivity with activation agents and rheological behaviors of the molecular aggregations) of pitch compositions. When commercial pitches are employed for the precursors, a synergistic effect on pore development occurs both in KOH- and H2O-activated PACs seriously depending on their mass percentages of light or heavy fractions. It suggests that the mass percentage can be an index to foresee the porous properties of PACs. These findings open up a significantly important and more practical approach applicable to tailor the pores in PACs on an industrial scale just through adjusting pitch compositions. [Display omitted] •Each of pitch fractions leads to an unique pore structure in activated carbon.•Porosity differences originate from the chemical properties of pitch fractions.•Light fractions are favorable for pore development in the KOH-activated carbons.•Pores in the H2O-activated carbons are easily achieved by using the heavy fractions.•Foreseeing pore texture of ACs bases on the mass percentage of pitch compositions.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2018.05.036