Ameliorating the existing purification methods with more
affordable,
efficient, and industrially adoptable methods that remove heavy metal
ions from contaminated drinking water constitutes a persistent technological
challenge. Metal–organic framework (MOF)-based materials with
their excellent adsorption performance are recently explored as an
alternative method to the traditional methods. Here, we report a MOF/biopolymer
composite-based aerogel that is a cost-effective, highly efficient,
and environmentally sustainable material for the removal of large
concentrations of heavy metal ions (1277 mg of Pb2+, 466
mg of Cd2+, and 706 mg of Cr6+ per gram of the
aerogel) and the selective removal of the cationic dye crystal violet
(310 mg/g) from its mixture with (anionic) methyl orange from contaminated
water samples. The MOF used herein is 2-methylimidazole zinc complex
(ZIF-8), whereas the biopolymer is the nontoxic and biodegradable
Iota-Carrageenan (iCG), a sulfated polysaccharide extracted from red
seaweeds. We have transformed the ZIF-8 powder into a moldable, load-bearable,
flexible, and eco-friendly ZIF-8@iCG aerogel. SEM images confirmed
that ZIF-8 is physically embedded in Iota-Carrageenan, forming a honeycomb
structure. The ZIF-8 is located onto the fibers of iCG, forming a
thermally stable, flame-retardant ZIF-8@iCG hydrogel, with high mechanical
strength and intrinsic porosity. The aerogel removes 92.03% of Pb2+ ions from an intentionally spiked Pb2+ solution
(1 ppm), making this water sample drinkable upon three successive
filtrations. The thermodynamics of metal ion adsorption suggest that
the adsorption kinetics follow the Langmuir adsorption isotherm model
and the adsorption process is endothermic. Ion leaching experiments
suggest that leaching of zinc ions from the aerogel is negligible.
Thus, the newly designed ZIF-8@iCG aerogel is a potentially effective
adsorbent for the removal of heavy metal ions and organic dyes from
drinking water and is intended for industrial use.
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