Publication date: 15 May 2017
Source:Journal of Colloid and Interface Science, Volume 494
Author(s): Gailing Huang, Yingying Sun, Chencong Zhao, Yifei Zhao, Zhaoyuan Song, Junli Chen, Shulan Ma, Junping Du, Zhigang Yin
In this study, water–n-BuOH mixed solvents were used to synthesize the ZnAl–layered double hydroxides (ZnAl–LDHs) via hydrothermal method. The XRD, FT-IR, SEM, ICP and CHN analyses revealed that the type of intercalated anions, the layer Zn/Al ratios, and morphologies of the LDHs depended on the ratio of V(water)/V(n-BuOH) in the mixed solvents. When the ratio of V(water)/V(n-BuOH) is 3 or 0.3, the as-prepared LDHs had 3D "silk flowers" (ZnAl–LDH–3) or "Sedimentary rock" morphology (ZnAl–LDH–0.3). Adsorption properties of dyes on calcined LDHs were studied. Compared with ZnAl–LDO–0.3 and ZnAl–LDO–w (calcined from the LDHs obtained in pure water), ZnAl–LDO–3 showed much better adsorption efficiency for anionic dyes thanks to its much larger BET-specific surface area. The sorption kinetics for dyes was appropriately described by the pseudo–second–order model and sorption isotherms can be fitted more satisfactorily by the Langmuir model. With the increasing concentrations of dyes from 10mg/L to 400mg/L, the maximum absorption capacities of ZnAl–LDO–3 were 1540mg/g (2.21mmol/g) for congo red, 1153mg/g (3.52mmol/g) for methyl orange and 390mg/g (0.63mmol/g) for active red (X-3B), respectively. The adsorption dyes onto the external surface is still the main mechanism for LDO adsorbents. The ZnAl–LDO–3 was a potential adsorbent for dyeing wastewater treatment.
Graphical abstract
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