posted on 2024-01-15, 18:33authored byZichao Deng, Aihua Chen
Stimulus-responsive
nanowires are attractive and expected to be
used in diversified fields, but their application is usually affected
by an inefficient synthetic process, impure morphologies, and unsteadiness
in organic solvents. Meanwhile, the reversibility of the response
is also challenging. Here, we present a new method incorporating polymerization-induced
hierarchical self-assembly (PIHSA) and photodimerization to prepare
cross-linked triblock copolymer nanowires, which were synthesized
by the successive polymerization of methacrylate monomers containing
azobenzene (MAAz) and stilbene (MAStb). The formation of nanowires
was related to the highly ordered stacking of stilbene, and their
heterostructures could be clearly identified by the distinct regions
comprising azobenzene and stilbene at the periphery and center of
the cores, respectively. Upon UV irradiation, the dimerization of
stilbene cross-linked the structure and made the nanowires tolerant
to good solvents. The cross-linked nanowires with appropriate block
ratios were photoresponsive, which could reversibly expand and slim
upon alternative UV/visible light irradiation due to the well-defined
distribution of azobenzene and stilbene. This work will open a new
door for the development and application of stimulus-responsive nanowires
owing to their fascinating reversible deformation and distinguished
stability.