用于促进 O 原子活化的协同 Cu 活性的合成聚合物：多相 vs 单相。

Synthetic Polymers To Promote Cooperative Cu Activity for O Activation: Poly vs Mono.

出版信息

J Am Chem Soc. 2019 Mar 13;141(10):4252-4256. doi: 10.1021/jacs.9b01093. Epub 2019 Feb 27.

Abstract

We report polymer-promoted cooperative catalysis of Cu for oxygen activation. A series of random copolymers containing dipicolylamine as binding motifs are designed to coordinate type-3 Cu sites. The Cu-copolymers show a 6-8-fold activity enhancement, compared to the molecular complex of Cu with an identical coordination site. Michaelis-Menten analysis demonstrates that the kinetic enhancement results from flexible polymer-promoted cooperative catalysis among multi-Cu sites despite the imposed thermodynamic barrier. These observations provide guidance for the bioinspired design of metallopolymers as soluble catalysts with high activity.

摘要

我们报告了聚合物促进的铜协同催化氧气活化。设计了一系列含有二吡啶甲胺作为结合基序的无规共聚物来配位型 3 Cu 位点。与具有相同配位位点的 Cu 分子配合物相比，Cu-共聚物的活性提高了 6-8 倍。Michaelis-Menten 分析表明，动力学增强是由于多 Cu 位点之间的柔性聚合物促进的协同催化，尽管存在热力学障碍。这些观察结果为仿生设计具有高活性的可溶性金属聚合物催化剂提供了指导。

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用于促进 O 原子活化的协同 Cu 活性的合成聚合物：多相 vs 单相。

Synthetic Polymers To Promote Cooperative Cu Activity for O Activation: Poly vs Mono.

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