Issue 96, 2016

The adsorption mechanisms of ClO4 onto highly graphited and hydrophobic porous carbonaceous materials from biomass

Abstract

Biomass activated carbons were activated and pyrolyzed at 300–800 °C under nitrogen circumstance (named as CAC300–CAC800). The physicochemical characteristics of CACs and mechanisms of perchlorate (ClO4) adsorption on CACs were investigated. Compared to CAC300, CAC600–CAC800 had higher surface area, total prove volume, higher hydrophobic surface and an abundant of oxygen-containing groups (–COH and –COOH) which contributed to a higher ClO4 adsorption capacity. The pH value of solution significantly affected ClO4 adsorption and the maximum ClO4 adsorption capacity occurred at pH 2.0 (less than pHIEP), where surface charge was positive. Electrostatic attraction and hydrogen bonding to oxygen-containing groups on CACs were considered as the dominant force for ClO4 adsorption. With the pH increased, electrostatic attraction disappeared and surface oxygen-containing groups were gradually deprotonated, and the ClO4 adsorption amount was gradually decreased few until pH 12.0. The batch adsorption experiments of ClO4 showed that CAC600–CAC800 were effective adsorbents for the adsorption of ClO4.

Graphical abstract: The adsorption mechanisms of ClO4− onto highly graphited and hydrophobic porous carbonaceous materials from biomass

Supplementary files

Article information

Article type
Paper
Submitted
23 May 2016
Accepted
26 Sep 2016
First published
27 Sep 2016

RSC Adv., 2016,6, 93975-93984

The adsorption mechanisms of ClO4 onto highly graphited and hydrophobic porous carbonaceous materials from biomass

B. Xu, Y. Zhai, Y. Zhu, C. Peng, T. Wang, C. Zhang, C. Li and G. Zeng, RSC Adv., 2016, 6, 93975 DOI: 10.1039/C6RA13341J

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