源自纳米晶体超晶格的铁、氮、硫共掺杂碳骨架用于增强氧还原活性

Fe, N, S-codoped carbon frameworks derived from nanocrystal superlattices towards enhanced oxygen reduction activity.

作者信息

Zou Jinxiang, Wang Biwei, Zhu Baixu, Yang Yuchi, Han Wenqian, Dong Angang

机构信息

iChem, Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, and Department of Chemistry, Fudan University, Shanghai, 200433, China.

State Key Laboratory of Molecular Engineering of Polymers, and Department of Macromolecular Science, Fudan University, Shanghai, 200433, China.

出版信息

Nano Converg. 2019 Feb 2;6(1):4. doi: 10.1186/s40580-019-0174-5.

DOI:10.1186/s40580-019-0174-5

PMID:30710178

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6358631/

Abstract

Recently, iron, nitrogen and sulfur codoped carbon-based materials have gained increasing attention for their synergistic effect towards superior electrocatalytic oxygen reduction performance. To gain insight into the contributions of the heteroatoms, we developed a facile and reproducible method for constructing Fe, N, S-codoped carbon frameworks derived from self-assembled FeO nanocrystal superlattices. The material constructed by the suggested method exhibited excellent ORR activity with more positive half-wave potential (∼ 0.869 V, vs RHE), higher diffusion-limiting current density (∼ 5.88 mA/cm) and smaller Tafel slope (45 mV/dec) compared with Fe, N-codoped carbon frameworks and Pt/C. Notably, FeO nanocrystals served as both the building blocks for constructing carbon frameworks and the source of Fe residues leaving in the frameworks at the same time. By artificially tailoring the doping type and level as well as the homogeneousness of heteroatoms, the results discussed herein prove the importance of each kind of heteroatom in boosting ORR activity.

摘要

最近，铁、氮和硫共掺杂的碳基材料因其对卓越的电催化氧还原性能的协同效应而受到越来越多的关注。为了深入了解杂原子的贡献，我们开发了一种简便且可重复的方法，用于构建源自自组装FeO纳米晶体超晶格的铁、氮、硫共掺杂碳框架。与铁、氮共掺杂碳框架和Pt/C相比，通过所建议的方法构建的材料表现出优异的氧还原反应（ORR）活性，具有更正的半波电位（约0.869 V，相对于可逆氢电极）、更高的扩散极限电流密度（约5.88 mA/cm）和更小的塔菲尔斜率（45 mV/dec）。值得注意的是，FeO纳米晶体同时作为构建碳框架的结构单元和残留在框架中的铁源。通过人工调整掺杂类型和水平以及杂原子的均匀性，本文讨论的结果证明了每种杂原子在提高ORR活性方面的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fa7e/6358631/e456a634c419/40580_2019_174_Sch1_HTML.jpg

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源自纳米晶体超晶格的铁、氮、硫共掺杂碳骨架用于增强氧还原活性

Fe, N, S-codoped carbon frameworks derived from nanocrystal superlattices towards enhanced oxygen reduction activity.

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