Yuling L. Zhang, Longfei F. Xiao, Yiping P. Mo, Guilin L. Liu, Shanshan S. Liu, Wangyang Y. Lu
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引用次数: 0
摘要
开发具有卓越反应活性和耐久性的双功能非贵金属电催化剂至关重要。在此,我们报告了一类以酞菁为基础的共价有机框架作为自牺牲前体衍生出的钴基混合电催化剂,用于氧还原反应(ORR)和氧进化反应(OER)。所制备的 Co-COFs/CNT-700 催化剂具有高效的 ORR 性能,半电势为 0.83 V,而在碱性溶液中以 10 mA cm-2 的电流密度进行的 OER 测试中,其半电势为 1.70 V,反映出卓越的 OER 活性。此外,使用 Co-COFs/CNT-700 催化剂组装的锌-空气电池在空气环境中的功率密度(114 mW cm2)略高于传统的 Pt/C-IrO2 电池,同时循环稳定性也有所提高(65 小时后电位损失为 5.1%)。这项工作为制造具有可控引入金属和杂原子的电催化材料铺平了一条便捷、高效的途径。
Reactivity and Durability of Covalent Organic Frameworks Derived Co-Based Hybrid Bifunctional Electrocatalysts for Zinc-Air Batteries
Developing bifunctional non-precious metal electrocatalysts of superior reactivity and durability is essential. Herein, we report a class of phthalocyanine-based covalent organic frameworks as self-sacrificial precursors derived Co-based hybrid electrocatalysts for oxygen reduction reaction (ORR) and oxygen evolution reaction (OER). The fabricated Co-COFs/CNT-700 catalysts displayed highly efficient ORR properties with a half-potential of 0.83 V, while its half-wave potential in alkaline solution at a current density of 10 mA cm−2 is 1.70 V in the OER test, reflecting exceptional OER activity. Moreover, zinc-air batteries assembled with Co-COFs/CNT-700 catalysts exhibit a marginally higher power density (114 mW cm2) than traditional Pt/C−IrO2 batteries in an air atmosphere, along with an enhanced cycling stability (5.1 % potential loss after 65 h). This work may pave a facile and efficient approach for fabricating electrocatalytic materials with controllably introduced metals and heteroatoms.
ChemNanoMatEnergy-Energy Engineering and Power Technology
CiteScore
6.10
自引率
2.60%
发文量
236
期刊介绍:
ChemNanoMat is a new journal published in close cooperation with the teams of Angewandte Chemie and Advanced Materials, and is the new sister journal to Chemistry—An Asian Journal.
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