Efficient Removal of Copper(II) and Malachite Green
from Aqueous Solution by Magnetic Magnesium Silicate Composite
Posted on 2017-08-11 - 17:27
The magnetic magnesium silicate composite
(Fe3O4@MgSi) with efficient removal of Cu(II)
and malachite green
(MG) from aqueous solution were synthesized by hydrothermal approach.
The synthetic flower-like particle size was about 2–3 μm.
In the process of exploring the adsorption conditions, the isotherms
were found to be well-fitted by Langmuir, Freundlich, and isotherm
kinetics in accord with the pseudo-second-order model. In addition,
the maximum adsorption capacity was 2198 mg·g–1 when the Cu(II) concentration of 800 mg·L–1. These results indicated that Fe3O4@MgSi can
be used as a superadsorbent and recyclable adsorbent to effectively
and rapidly remove Cu(II) and MG pollutants from industrial wastewater
or drinking water.
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Liu, Huandong; Mo, Zunli; Li, Li; Chen, Fang; Wu, Qijun; Qi, Lei (2017). Efficient Removal of Copper(II) and Malachite Green
from Aqueous Solution by Magnetic Magnesium Silicate Composite. ACS Publications. Collection. https://doi.org/10.1021/acs.jced.7b00041
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AUTHORS (6)
HL
Huandong Liu
ZM
Zunli Mo
LL
Li Li
FC
Fang Chen
QW
Qijun Wu
LQ
Lei Qi