Fabrics have been used broadly in
daily life for an enormous variety
of applications due to their intrinsic advantages, such as flexibility,
renewability, and good processability. Integrating natural fabrics
with metal–organic frameworks (MOFs) is an effective strategy
to improve the added value of textiles with special functionalities.
Here, a facile, low-cost, and scalable technology is reported for
the in situ growth of MOFs on cotton fabrics. A uniform and dense
coating of regular octahedral Cu-1,3,5-benzenetricarboxylic acid (CuBTC)
crystals was formed on the fiber surface, followed by treatment with
1H,1H,2H,2H-perfluorooctyltriethoxysilane and triethoxyoctylsilane
to create a superhydrophobic CuBTC@cotton fabric (SMCF), which greatly
improved its water stability and extended superhydrophobic CuBTC’s
potential applications. The as-prepared MCF has a specific surface
area of 229 m2/g, which is 11 times that of pristine fabrics
(21 m2/g). This high porosity further endows the fabric
with enhanced loading capacity of essential oils to enable excellent
antibacterial ability. Moreover, the SMCF also exhibits excellent
self-cleaning, UV shielding, and anti-icing performances. In addition,
we performed COMSOL simulations to investigate the dynamic freezing
process of water on the surface of samples, which agrees well with
our experimental observations. By combining the merits of both fabrics
and MOFs, the MCF is expected to extend the applications of traditional
textiles in antifouling, safety, the fragrance industry, and healthcare
for the next-generation multifunctional fabrics.