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主客体相互作用促进了用于高效氧还原反应催化的铁氮活性位点的形成。

Host-guest interactions promoted formation of Fe-N active site toward efficient oxygen reduction reaction catalysis.

作者信息

Fan Zhengwen, Cui Xinjiao, Wei Jiankun, Chen Chan, Tang Haolin, Li Junsheng

机构信息

School of Chemistry, Chemical Engineering and Life Sciences, Wuhan University of Technology, Wuhan 430070, PR China.

School of Chemistry, Chemical Engineering and Life Sciences, Wuhan University of Technology, Wuhan 430070, PR China; Research Center for Materials Genome Engineering, Wuhan University of Technology, Wuhan 430070, PR China.

出版信息

J Colloid Interface Sci. 2022 Sep;621:195-204. doi: 10.1016/j.jcis.2022.04.059. Epub 2022 Apr 15.

Abstract

FeNC is the most promising material to replace the noble metal catalyst for cathodic oxygen reduction reaction in proton exchange membrane fuel cells (PEMFCs). However, the practical performance of FeNC catalyst is significantly limited by its low active site (Fe-N) density. Herein, we propose to promote the formation of Fe-N active sites in FeNC catalyst by strengthening the interaction of N precursors and Fe precursors during the carbonization synthesis. In our approach, ionic liquid (IL, [EMIM][NTf]) with high nitrogen content and good thermal stability is caged in the pores of Fe-ZIF-8 through the host-guest interactions. These interactions are critical for the preservation of Fe and N species and formation of active sites during the synthesis. The optimal catalyst developed with this approach (FeNC/10) has a high density of accessible Fe-N sites (1.88*10 sites g). Therefore, in both acidic and alkaline media, FeNC/10 showed excellent ORR activity comparable to commercial Pt/C catalyst. Moreover, PEMFC performance with a peak power density of 300 mW cm was demonstrated with FeNC/10 under H/O conditions. The synthetic approach reported herein may be used for tailoring of advanced catalyst with high intrinsic activity.

摘要

铁氮碳(FeNC)是质子交换膜燃料电池(PEMFC)中最有希望替代贵金属催化剂用于阴极氧还原反应的材料。然而,FeNC催化剂的实际性能受到其低活性位点(Fe-N)密度的显著限制。在此,我们提出通过在碳化合成过程中加强氮前驱体和铁前驱体之间的相互作用来促进FeNC催化剂中Fe-N活性位点的形成。在我们的方法中,具有高氮含量和良好热稳定性的离子液体(IL,[EMIM][NTf])通过主客体相互作用被封装在Fe-ZIF-8的孔中。这些相互作用对于合成过程中Fe和N物种的保留以及活性位点的形成至关重要。用这种方法开发的最佳催化剂(FeNC/10)具有高密度的可及Fe-N位点(1.88×10个位点/克)。因此,在酸性和碱性介质中,FeNC/10都表现出与商业Pt/C催化剂相当的优异氧还原反应(ORR)活性。此外,在H/O条件下,使用FeNC/10展示了峰值功率密度为300 mW/cm²的PEMFC性能。本文报道的合成方法可用于定制具有高本征活性的先进催化剂。

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