Two-Dimensional Leafy Fe/N-Doped Carbon Nanomaterials Derived from Vitamin C-Modified ZIF-L for Efficient Oxygen Reduction Reaction

IF 2.1 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Electronic Materials Letters Pub Date : 2024-05-08 DOI:10.1007/s13391-024-00496-x

Yating Zhang, Xiaobo Wang, Meng Chen, Pei He, Zhenghan Kong

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Abstract

Oxygen reduction reaction (ORR) is an important half-reaction in various energy devices such as fuel cells. Here, 2D dendritic Fe/N co-doped carbon-based nanosheet composites (L-Fe-CNT@NCS-900) were obtained by high-temperature calcination using ZIF-L generated in the aqueous phase as a precursor and Vitamin C as a modifier. It is found that the catalysts calcined at 900℃ possessed the large specific surface area and the pore size distribution graphs showed a narrow micropore size distribution centered at about 1.8 nm. Furthermore, the Fe-N-C species was detected, which further improved the ORR performance as an active center. Thus, the L-Fe-CNT@NCS-900 calcined at 900 °C achieved the best ORR performance with a half-wave potential (E_1/2) of 0.85 V, and the hydrogen peroxide yield is only about 4% during the ORR process. Meanwhile, L-Fe-CNT@NCS-900 exhibited outstanding methanol resistance. This work proposes a new strategy for constructing an efficient electrocatalysts for oxygen reduction reaction.

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维生素 C 改性 ZIF-L 衍生的二维叶状 Fe/N 掺杂碳纳米材料用于高效氧还原反应

氧还原反应（ORR）是燃料电池等各种能源设备中的重要半反应。本文以水相中生成的 ZIF-L 为前驱体，维生素 C 为改性剂，通过高温煅烧获得了二维树枝状 Fe/N 共掺杂碳基纳米片复合材料（L-Fe-CNT@NCS-900）。研究发现，在 900℃下煅烧的催化剂具有较大的比表面积，孔径分布图显示出以约 1.8 nm 为中心的窄微孔分布。此外，还检测到了作为活性中心的 Fe-N-C 物种，这进一步提高了 ORR 性能。因此，在 900 °C 煅烧的 L-Fe-CNT@NCS-900 实现了最佳的 ORR 性能，其半波电位（E1/2）为 0.85 V，在 ORR 过程中过氧化氢的产率仅为 4%。同时，L-Fe-CNT@NCS-900 还表现出优异的耐甲醇性。该研究为构建高效的氧还原反应电催化剂提出了一种新策略。

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来源期刊

Electronic Materials Letters 工程技术-材料科学：综合

CiteScore

4.70

自引率

20.80%

发文量

审稿时长

2.3 months

期刊介绍： Electronic Materials Letters is an official journal of the Korean Institute of Metals and Materials. It is a peer-reviewed international journal publishing print and online version. It covers all disciplines of research and technology in electronic materials. Emphasis is placed on science, engineering and applications of advanced materials, including electronic, magnetic, optical, organic, electrochemical, mechanical, and nanoscale materials. The aspects of synthesis and processing include thin films, nanostructures, self assembly, and bulk, all related to thermodynamics, kinetics and/or modeling.