In order to give an answer for the challenges of long
wavelength-photocontrolled
radical polymerization in aqueous solutions and to address the shortcomings
of conventional near-infrared (NIR) photocatalysts (PCs) that are
difficult to subject to post-treatment, we designed and synthesized
a series of β-tetra-substituted water-soluble zinc phthalocyanines
(β-TS-Zns) as the NIR PCs for reversible addition–fragmentation
chain transfer (RAFT) polymerization successfully under irradiation
with NIR (λmax = 730 nm) light at room temperature.
Importantly, the NIR PCs can also be designed as polymerizable monomers
and covalently loaded on the polymer chains, which are endowed with
permanent NIR photocatalysis of the resultant polymers. Moreover,
the polymerization can not only be carried out in water but also in
phosphate buffer saline (PBS) solution, yielding polymers with controlled
molar mass and narrow dispersities (Đ = 1.03–1.25).
Therefore, this NIR-photocontrolled aqueous RAFT polymerization system
may provide a charming strategy for possible applications in tissue
engineering biomaterial in situ benefiting from the high penetration
ability of NIR light.
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