The post-functionalization of Co(III)PPh3 triarylcorroles through Suzuki–Miyaura couplings and their tunable electrochemically-catalyzed hydrogen evolution and oxygen reduction

Xu Liang; Yuanyuan Qiu; Xifeng Zhang; Weihua Zhu

doi:10.1039/C9DT04917G

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The post-functionalization of Co(iii)PPh₃ triarylcorroles through Suzuki–Miyaura couplings and their tunable electrochemically-catalyzed hydrogen evolution and oxygen reduction†

Xu Liang,

*^ab Yuanyuan Qiu,^a Xifeng Zhang^a and Weihua Zhu*^ab

Author affiliations

* Corresponding authors

^a School of Chemistry and Chemical Engineering, Jiangsu University, Zhenjiang 212013, P. R. China
E-mail: liangxu@ujs.edu.cn, sayman@ujs.edu.cn
Fax: +86-511-8879-1928
Tel: +86-511-8879-1928

^b State Key Laboratory of Coordination Chemistry, Nanjing University, Nanjing 210000, P. R. China

Abstract

The post-functionalization of six novel symmetric and asymmetric meso-expanded Co(III) corroles through Suzuki–Miyaura coupling reactions has been successfully accomplished and is reported along with their structural characterization. An analysis of the structure–property relationships of the optical and redox properties of the corroles has been carried out by comparing their optical spectra and their electrochemical properties. The results demonstrate that post-functionalized meso-expanded Co(III) triarylcorroles exhibit enhanced electrocatalyzed oxygen reduction reaction (ORR) activity and that their reactivity can be controlled by modulating the electronic structure, the functionalization and the number of coupled meso-substituents.

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Article information

DOI: https://doi.org/10.1039/C9DT04917G
Article type: Paper
Submitted: 30 Dec 2019
Accepted: 08 Feb 2020
First published: 12 Feb 2020

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Dalton Trans., 2020,49, 3326-3332

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The post-functionalization of Co(III)PPh₃ triarylcorroles through Suzuki–Miyaura couplings and their tunable electrochemically-catalyzed hydrogen evolution and oxygen reduction

X. Liang, Y. Qiu, X. Zhang and W. Zhu, Dalton Trans., 2020, 49, 3326 DOI: 10.1039/C9DT04917G

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