This
article demonstrates a novel nanoscale surface modification
method to enhance the selectivity of porous poly(dimethylsiloxane)
(PDMS) in removing oil from water. The surface modification method
is simple and low cost by using sugar as a sacrificial template for
temporal adhering of carbon nanotubes (CNT) before addition of PDMS
prepolymer to encapsulate the CNT on its surface once polymerized.
The PDMS–CNT demonstrated a tremendous increase in absorption
capacity up to 3-fold compared to previously reported absorbents composed
solely of PDMS. Besides showcasing excellent absorption capacity,
the PDMS–CNT also shows a faster absorption rate (25 s) as
compared to that of pure PDMS (40 s). The enhanced absorption rate
is due to the incorporation of CNT, which roughens the surface of
the polymer at the nanoscale and lowers the surface energy of porous
PDMS while at the same time increasing the absorbent hydrophobicity
and oleophilicity. This property makes the absorbent unique in absorbing
only oil but repelling water at the same time. The PDMS–CNT
is an excellent absorbent material with outstanding recyclability
and selectivity for removing oil from water.