1 research outputs found
Self-Assembly-Directed Aerogel and Membrane Formation from a Magnetic Composite: An Approach to Developing Multifunctional Materials
Herein,
we report the preparation of an aerogel and a membrane from a magnetic
composite material by tuning the self-assembly at the molecular level.
The gel exhibits an excellent oil absorption property, and the membrane
shows a remarkable autonomous self-healing property. The composite
is formed from an organosilicon-modified poly(amidoamine) (PAMAM)
dendrimer, which is linked with iron oxide nanoparticles and poly(vinyl
alcohol). Upon the addition of a cross-linker (formaldehyde), the
system undergoes a fast self-assembly and gelation process. The aerogel,
obtained after drying of the hydrogel, was modified with 1- bromohexadecane
at room temperature and utilized for the removal of oil from water
with 22.9 g/g absorption capacity. Intriguingly, the same system forms
a membrane with 97% autonomous self-healing ability, in the absence
of the cross-linker. The membrane was used to remove the salt content
from water with an efficiency of 85%. The control experiments suggest
that the presence of the magnetic material (iron oxide) plays a key
role in the formation of both the aerogel and membrane