化学
原子转移自由基聚合
功能群
光化学
聚合
自由基聚合
群(周期表)
活性自由基聚合
一氧化氮介导的自由基聚合
高分子化学
可逆加成-断裂链转移聚合
密度泛函理论
激进的
钴介导的自由基聚合
Atom(片上系统)
链式转移
电子转移
硝基
“结束”组
分子
作者
Isobelle F. McClements,Megan E. Driscoll,Brett P. Fors
摘要
High Resolution Image Download MS PowerPoint Slide Initiating controlled radical polymerizations directly from common functional groups is desirable for synthesizing advanced polymer architectures, such as surface grafts and polymer conjugates. Previously, photocontrolled atom transfer radical polymerization (ATRP) has been performed with alkyl halide initiators, limiting its utility in these advanced polymer applications. In this study, we demonstrate the initiation of photo-ATRP directly from the α-carbon of primary amines. We employ an iridium photocatalyst to trigger radical deamination of redox-activated primary amines, initiating controlled radical polymerization in the presence of an exogenous bromide source under visible light irradiation. The resulting polymers have narrow molar mass distributions ( Đ ∼ 1.2–1.3), good agreement between theoretical and experimental molar masses, exceptionally high α-chain-end fidelities (>99%), and active bromide ω-chain-ends. This study lays the groundwork for utilizing non-alkyl halide initiators to initiate well-controlled ATRP polymerizations, opening the door for the use of redox-activated functional groups as ATRP initiators for creating advanced polymer architectures.
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