Issue 35, 2019

Three hierarchical porous magnesium borate microspheres: a serial preparation strategy, growth mechanism and excellent adsorption behavior for Congo red

Abstract

The 3D hierarchical porous 7MgO·2B2O3·7H2O (MBH) microspheres were prepared by a phase transformation of chloropinnoite firstly, and anhydrous α-3MgO·B2O3 (MBA) microspheres were obtained by thermal conversion of 7MgO·2B2O3·7H2O, and then β-3MgO·B2O3 (MBB) microspheres were obtained by phase conversion of α-3MgO·B2O3. All samples were characterized by XRD, FT-IR, TG and SEM. The microsphere nanostructures with a hierarchical porous structure were assembled by nanosheets with a thickness of 20–30 nm, and the growth mechanisms were also proposed. By using N2 adsorption–desorption, the specific surface areas were measured as 103.62 m2 g−1 for MBH and 46.10 m2 g−1 for MBA. They exhibited excellent selective adsorption performance for Congo red (CR) with maximum adsorption capacities of 202.84 and 170.07 mg g−1 respectively, and the corresponding adsorption mechanisms were also investigated. The adsorption processes were well fitted with the pseudo-second-order rate equation and Langmuir adsorption model. In addition, the corresponding adsorption thermodynamic parameters were also calculated. It is necessary to highlight that the hierarchical porous microspheres could be considered as promising candidates for removal of CR dye pollutants.

Graphical abstract: Three hierarchical porous magnesium borate microspheres: a serial preparation strategy, growth mechanism and excellent adsorption behavior for Congo red

Supplementary files

Article information

Article type
Paper
Submitted
15 May 2019
Accepted
17 Jun 2019
First published
26 Jun 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 20009-20018

Three hierarchical porous magnesium borate microspheres: a serial preparation strategy, growth mechanism and excellent adsorption behavior for Congo red

R. Guo, Y. Ma and Z. Liu, RSC Adv., 2019, 9, 20009 DOI: 10.1039/C9RA03654G

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