Facile method to synthesize conjugated poly(1,4-phenyldiimine) porphyrin cobalt with “electron pump” for enhancing bifunctional catalytic oxygen reaction performance

双功能 卟啉 催化作用 共轭体系 氧气 化学 组合化学 光化学 有机化学 聚合物
作者
Yinggang Sun,Peng Sun,Jigang Wang,Yanqiong Zhuang,Likai Wang,Ang Li,Zhongfang Li
出处
期刊:Nano Research [Springer Science+Business Media]
卷期号:18 (12): 94907789-94907789 被引量:1
标识
DOI:10.26599/nr.2025.94907789
摘要

To solve the slow dynamics of catalytic oxygen reaction energy devices, a facile method was developed for the synthesis of methylene alcohol terminated poly(1,4-phenyldiimine) porphyrin cobalt (M-PImPorCo), which was synthesized by RuCl3 catalyzed redox reaction of meso-5,10,15,20-tetra(4-nitrophenyl) porphyrin cobalt (TNO2PorCo) and 1,4-phenyldimethanol. M-PImPorCo is a fully conjugated covalent organic framework (COF) with high thermal and chemical stability. COFs with different edge groups were synthesized to compare the effect of different groups (–CH2–OH and –NO2) on catalytic bifunctional oxygen reaction activity. C=N as nitrogen-rich environment of M-PImPorCo leads to the protonation process of oxygen catalysis and reduces the energy barrier of adsorption in the oxygen intermediate. C=N and –CH2–OH form an “electron pump” structure to deliver electrons to the Co–N4 site in M-PImPorCo, and the π–π interaction between M-PImPorCo and three-dimensional graphene (3D-G) can further enrich the electron cloud density of Co–N4 sites. M-PImPorCo/3D-G has remarkable oxygen catalytic performance, with a half-wave potential (E1/2) of 0.91 V vs. reversible hydrogen electrode (RHE). M-PImPorCo/3D-G has low potential (Ej=10 is 1.49 V vs. RHE) at a current density of 10 mA·cm−2. It exhibits a good bifunctional catalytic performance (potential difference (ΔE) = 0.58 V). The smaller charge–discharge band gap of zinc-air batteries (ZABs) and flexible ZABs (F-ZABs) equipped with M-PImPorCo/3D-G suggests the potential for catalytic oxygen reaction bifunctional applications. This work provides a new idea for the synthesis of Schiff-base porphyrin-based COF catalyst and its potential application to oxygen reaction catalytic energy storage devices.
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