Literature DB >> 25033100

Phenylenediamine-based FeN(x)/C catalyst with high activity for oxygen reduction in acid medium and its active-site probing.

Qiang Wang1, Zhi-You Zhou, Yu-Jiao Lai, Yong You, Jian-Guo Liu, Xia-Ling Wu, Ephrem Terefe, Chi Chen, Lin Song, Muhammad Rauf, Na Tian, Shi-Gang Sun.   

Abstract

High-temperature pyrolyzed FeN(x)/C catalyst is one of the most promising nonprecious metal electrocatalysts for oxygen reduction reaction (ORR). However, it suffers from two challenging problems: insufficient ORR activity and unclear active site structure. Herein, we report a FeN(x)/C catalyst derived from poly-m-phenylenediamine (PmPDA-FeN(x)/C) that possesses high ORR activity (11.5 A g(-1) at 0.80 V vs RHE) and low H2O2 yield (<1%) in acid medium. The PmPDA-FeN(x)/C also exhibits high catalytic activity for both reduction and oxidation of H2O2. We further find that the ORR activity of PmPDA-FeN(x)/C is not sensitive to CO and NO(x) but can be suppressed significantly by halide ions (e.g., Cl(-), F(-), and Br(-)) and low valence state sulfur-containing species (e.g., SCN(-), SO2, and H2S). This result reveals that the active sites of the FeN(x)/C catalyst contains Fe element (mainly as Fe(III) at high potentials) in acid medium.

Entities:  

Year:  2014        PMID: 25033100     DOI: 10.1021/ja505777v

Source DB:  PubMed          Journal:  J Am Chem Soc        ISSN: 0002-7863            Impact factor:   15.419


  22 in total

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4.  In situ electrochemical quantification of active sites in Fe-N/C non-precious metal catalysts.

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6.  Nanocasting SiO2 into metal-organic frameworks imparts dual protection to high-loading Fe single-atom electrocatalysts.

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7.  Unveiling the Axial Hydroxyl Ligand on Fe-N4-C Electrocatalysts and Its Impact on the pH-Dependent Oxygen Reduction Activities and Poisoning Kinetics.

Authors:  Xin Yang; Dongsheng Xia; Yongqiang Kang; Hongda Du; Feiyu Kang; Lin Gan; Jia Li
Journal:  Adv Sci (Weinh)       Date:  2020-04-27       Impact factor: 16.806

8.  N-doped carbon nanomaterials are durable catalysts for oxygen reduction reaction in acidic fuel cells.

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Journal:  Sci Adv       Date:  2015-02-27       Impact factor: 14.136

9.  Electrospun interconnected Fe-N/C nanofiber networks as efficient electrocatalysts for oxygen reduction reaction in acidic media.

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Journal:  Sci Rep       Date:  2015-11-30       Impact factor: 4.379

10.  Molecular metal-Nx centres in porous carbon for electrocatalytic hydrogen evolution.

Authors:  Hai-Wei Liang; Sebastian Brüller; Renhao Dong; Jian Zhang; Xinliang Feng; Klaus Müllen
Journal:  Nat Commun       Date:  2015-08-07       Impact factor: 14.919
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