Adsorption of heavy metals with new graphene-based materials
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This study evaluates the performance of four different graphene-based materials as
adsorbents for the removal of heavy metals (Cu2+, Cd2+ and CrO4
2-) from aqueous
solutions. The adsorbents were firstly characterized by scanning electron microscopy,
thermogravimetric analysis and porosimetry. The effect on the adsorption of different
parameters, such as contact time, pH of the aqueous solution, adsorbent
concentration and initial metal concentration, is studied here. The maximum removal
percentage for Cu2+ and Cd2+ are 98.92% and 94.88% respectively, when an initial
concentration of 5 mg/L at pH=6 and 2 g/L of adsorbent were used. In the case of
CrO4
2- an adsorbed percentage of 67.93% was obtained with 10 g/L of adsorbent, an
initial concentration of was 5 mg/L and pH=2. Competitive experiments for Cu2+ and
Cd2+ were performed, the results showed no significant decrease in the adsorption of
the metals compared to the single metal experiments.
The adsorption processes were characterized by applying different adsorption
isotherm models (Langmuir, Freundlich and Temkin) to the experimental data. The
Langmuir isotherm model fitted well with the experimental data obtained for Cu2+,
Cd2+ and CrO4
2- for most of the four adsorbents, resulting in maximum adsorption
values (qmax) of between 2.6 to 5.4 mg/g for Cu2+ and Cd2+. This qmax was a lower (0.5
mg/g) for CrO4
2-.
The results showed that these graphene-based adsorbents can be used to effectively
remove Cu2+, Cd2+ and CrO4
2- from aqueous solutions, having single metal or multimetal
composition as there is not competition for the adsorbent in the experimental
conditions tested