Issue 39, 2011

High performance adsorbents based on hierarchically porous silica for purifying multicomponent wastewater

Abstract

Hybrid hierarchically porous silica adsorbents were simply fabricated by the sol–gel method and modified with thiol or sulfonic groups. These materials with pores on both micrometre and nanometre scales exhibit a satisfactorily adsorptive property to various pollutants in water, including heavy metal ions (Hg2+, Cd2+, Pb2+, Cu2+, Ag+ and CrO42) and organic compounds (dyes, biogenic amines, pesticides and amino acids). The thiol functionalized hierarchically porous silica micro-foam (SH-HSM), which has a low thiol content (0.66 mmol g−1), shows significantly high adsorption capability to Hg2+ (140.1 mg g−1) in particular. Then sulfonic acid-functionalized adsorbent (SO3H-HSM) was obtained through direct oxidization of SH-HSM by H2O2 without destruction of the hierarchical structure. It was found that SO3H-HSM could effectively remove organic compounds with positive charge in solution through electrostatic interactions. The adsorption capability of SO3H-HSM for some basic dyes, such as fuchsin basic, could reach approximately 1145.2 mg g−1. The mixture of SH-HSM and SO3H-HSM showed good purifying capacity to simulate multicomponent wastewater, containing different inorganic and organic chemicals. The removal rate for any of the pollutants was more than 90%, and could even reach 100% for metal ions and dyes. The strong adsorption ability of these porous adsorbents may be due to the interwoven meso- and macroporous structures which can increase mass transport and easier accessibility for pollutants to the active sites.

Graphical abstract: High performance adsorbents based on hierarchically porous silica for purifying multicomponent wastewater

Supplementary files

Article information

Article type
Paper
Submitted
14 May 2011
Accepted
28 Jul 2011
First published
26 Aug 2011

J. Mater. Chem., 2011,21, 15567-15574

High performance adsorbents based on hierarchically porous silica for purifying multicomponent wastewater

W. Shi, S. Tao, Y. Yu, Y. Wang and W. Ma, J. Mater. Chem., 2011, 21, 15567 DOI: 10.1039/C1JM12142A

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