用于氧化还原活性非共轭聚合物电荷传输的扩散协同模型。

Diffusion-Cooperative Model for Charge Transport by Redox-Active Nonconjugated Polymers.

机构信息

Department of Applied Chemistry, Waseda University , Tokyo 169-8555, Japan.

Artie McFerrin Department of Chemical Engineering, Texas A&M University , 3122 TAMU, College Station, Texas 77843-3122, United States.

出版信息

J Am Chem Soc. 2018 Jan 24;140(3):1049-1056. doi: 10.1021/jacs.7b11272. Epub 2018 Jan 9.

DOI:10.1021/jacs.7b11272

PMID:29276830

Abstract

Charge transport processes in nonconjugated redox-active polymers with electrolytes were studied using a diffusion-cooperative model. For the first time, we quantitatively rationalized that the limited Brownian motion of the redox centers bound to the polymers resulted in the 10-fold decline of the bimolecular and heterogeneous charge transfer rate constants, which had been unexplained for half a century. As a next-generation design, a redox-active supramolecular system with high physical mobility was proposed to achieve the rate constant as high as in free solution system (>10 M s) and populated site density (>1 mol/L).

摘要

使用扩散协同模型研究了带有电解质的非共轭氧化还原活性聚合物中的电荷输运过程。我们首次定量合理化地解释了，与聚合物结合的氧化还原中心的有限布朗运动导致双分子和非均相电荷转移速率常数下降了 10 倍，这一现象在过去半个世纪一直未得到解释。作为下一代设计，提出了具有高物理迁移率的氧化还原超分子体系，以实现与自由溶液体系（>10 M s）相当的速率常数和较高的占据位密度（>1 mol/L）。

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用于氧化还原活性非共轭聚合物电荷传输的扩散协同模型。

Diffusion-Cooperative Model for Charge Transport by Redox-Active Nonconjugated Polymers.

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