Low-Density,
Mechanical Compressible, Water-Induced Self-Recoverable Graphene Aerogels
for Water Treatment
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Abstract
Graphene
aerogels (GAs) have demonstrated great promise in water treatment,
acting as separation and sorbent materials, because of their high
porosity, large surface area, and high hydrophobicity. In this work,
we have fabricated a new series of compressible, lightweight (3.3
mg cm<sup>–3</sup>) GAs through simple cross-linking of graphene
oxide (GO) and poly(vinyl alcohol) (PVA) with glutaraldehyde. It is
found that the cross-linked GAs (xGAs) show an interesting water-induced
self-recovery ability, which can recover to their original volume
even under extremely high compression strain or after vacuum-/air
drying. Importantly, the amphiphilicity of xGAs can be adjusted facilely
by changing the feeding ratio of GO and PVA and it exhibits affinity
from polar water to nonpolar organic liquids depended on its amphiphilicity.
The hydrophobic xGAs with low feeding ratio of PVA and GO can be used
as adsorbent for organic liquid, while the hydrophilic xGAs with high
feeding ratio of PVA and GO can be used as the filter material to
remove some water-soluble dye in the wastewater. Because of the convenience
of our approach in adjusting the amphiphilicity by simply changing
the PVA/GO ratio and excellent properties of the resulting xGAs, such
as low density, compressive, and water-induced self-recovery, this
work suggests a promising technique to prepare GAs-based materials
for the water treatment in different environment with high recyclability
and long life