posted on 2023-08-08, 10:33authored byYangkai Xiong, Zhiqiang Fang, Daxiong Hu, Hao Jiang, Lei Huang, Qitong Mao, Guoqing Wang, Jipeng Li, Zhenzhong Liu, Chunxin Ma
Although
many antibiofouling materials have been developed based
on either bacterial-killing or antiadhesion effects, the integration
of both the effects in one material remains challenging for achieving
highly enhanced synergistic antibiofouling. In this study, we have
explored a nano-CeO2-loaded double-network hydrogel by
introducing CeO2 nanorods into a polyzwitterionic hydrogel
via a simple one-pot method for achieving highly efficient antifouling.
First, the CeO2 nanorods dispersed in the hydrogel, as
an outstanding nanozyme, have highly efficient bacterial-killing performance.
Second, the superhydrophilic polyzwitterionic hydrogel provides a
dense hydrated layer on the surface and subsequently excellent broad-spectrum
antiadhesion behavior. Most importantly, the bacterial killing and
antiadhesion of this hydrogel can work synergistically to largely
improve the marine-antifouling performance. Moreover, the double-network
structure of this hydrogel, including the covalently cross-linked
polyzwitterion hard network and the physically cross-linked poly(vinyl
alcohol) soft network, can provide greatly improved mechanical properties
(2.44 MPa of tensile strength reaches and 21.87 MPa of compressive
strength). As a result, among the existing marine-antifouling hydrogels,
the CeO2-loaded polyzwitterionic double-network hydrogel
can achieve outstanding antifouling performance, which can sustain
for over 6 months in a real marine environment. This work provides
a promising marine-antifouling hydrogel, which will also inspire antifouling
research of a new strategy and materials.