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对α,ω-二芳基二氢吩嗪光氧化还原催化剂的自由基加成及其在光诱导有机催化原子转移自由基聚合中的应用

Radical Addition to ,-Diaryl Dihydrophenazine Photoredox Catalysts and Implications in Photoinduced Organocatalyzed Atom Transfer Radical Polymerization.

作者信息

Corbin Daniel A, Puffer Katherine O, Chism Katherine A, Cole Justin P, Theriot Jordan C, McCarthy Blaine G, Buss Bonnie L, Lim Chern-Hooi, Lincoln Sarah R, Newell Brian S, Miyake Garret M

机构信息

Department of Chemistry, Colorado State University, Fort Collins, Colorado 80523, United States.

Department of Chemistry, University of Colorado Boulder, Boulder, Colorado 80309, United States.

出版信息

Macromolecules. 2021 May 25;54(10):4507-4516. doi: 10.1021/acs.macromol.1c00501. Epub 2021 May 4.

DOI:10.1021/acs.macromol.1c00501
PMID:34483366
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8411832/
Abstract

Photoinduced organocatalyzed atom transfer radical polymerization (O-ATRP) is a controlled radical polymerization methodology catalyzed by organic photoredox catalysts (PCs). In an efficient O-ATRP system, good control over molecular weight with an initiator efficiency (* = / × 100%) near unity is achieved, and the synthesized polymers possess a low dispersity (). ,-Diaryl dihydrophenazine catalysts typically produce polymers with low dispersity ( < 1.3) but with less than unity molecular weight control (* ~ 60-80%). This work explores the termination reactions that lead to decreased control over polymer molecular weight and identifies a reaction leading to radical addition to the phenazine core. This reaction can occur with radicals generated through reduction of the ATRP initiator or the polymer chain end. In addition to causing a decrease in *, this reactivity modifies the properties of the PC, ultimately impacting polymerization control in O-ATRP. With this insight in mind, a new family of core-substituted ,-diaryl dihydrophenazines is synthesized from commercially available ATRP initiators and employed in O-ATRP. These new core-substituted PCs improve both * and in the OATRP of MMA, while minimizing undesired side reactions during the polymerization. Further, the ability of one core-substituted PC to operate at low catalyst loadings is demonstrated, with minimal loss of polymerization control down to 100 ppm (weight average molecular weight [ ] = 10.8 kDa, = 1.17, * = 104% vs = 8.26, = 1.10, * = 107% at 1000 ppm) and signs of a controlled polymerization down to 10 ppm of the catalyst ( = 12.1 kDa, = 1.36, * = 107%).

摘要

光诱导有机催化原子转移自由基聚合(O-ATRP)是一种由有机光氧化还原催化剂(PCs)催化的可控自由基聚合方法。在高效的O-ATRP体系中,能够实现对分子量的良好控制,引发剂效率(* = / × 100%)接近1,且合成的聚合物具有低分散度()。二芳基二氢吩嗪催化剂通常能制备出低分散度( < 1.3)的聚合物,但对分子量的控制小于1(* ~ 60 - 80%)。本工作探究了导致聚合物分子量控制降低的终止反应,并确定了一种导致自由基加成到吩嗪核心的反应。该反应可与通过ATRP引发剂或聚合物链端还原产生的自由基发生。除了导致降低外,这种反应活性还会改变PC的性质,最终影响O-ATRP中的聚合控制。基于这一认识,从市售的ATRP引发剂合成了一系列新的核心取代二芳基二氢吩嗪,并将其用于O-ATRP。这些新的核心取代PCs在甲基丙烯酸甲酯(MMA)的O-ATRP中提高了和 ,同时使聚合过程中不期望的副反应最小化。此外,还证明了一种核心取代PC在低催化剂负载量下的操作能力,低至100 ppm时聚合控制的损失最小(重均分子量[ ] = 10.8 kDa, = 1.17,* = 104%,而在1000 ppm时 = 8.26, = 1.10,* = 107%),并且在催化剂低至10 ppm时仍有可控聚合的迹象( = 12.1 kDa, = 1.36,* = 107%)。

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