Wang Yunchuang, Liu Yousong, Yang Haifeng, Liu Yu, Wu Kuang-Hsu, Yang Guangcheng
Institute of Chemical Materials, China Academy of Engineering Physics, Mianyang, Sichuan 621900, China.
School of Chemical Engineering, The University of New South Wales, Sydney, Kensington, NSW 2052, Australia.
J Colloid Interface Sci. 2020 Nov 1;579:637-644. doi: 10.1016/j.jcis.2020.06.076. Epub 2020 Jun 23.
Iron-nitrogen (Fe-N) co-doped carbon nanomaterials are promising catalysts for oxygen reduction reaction (ORR) with outstanding catalytic activity at low cost. Here, we demonstrate a facile bottom-up strategy to fabricate Fe, N, B co-doped bamboo-like carbon nanotubes using ionic liquid as dopant source. We show that the synergistic effect of Fe, N, B in the mesoporous carbon structure can derive excellent ORR activity, for which the FeNB/C-800 catalyst delivers an onset potential of 0.97 V (vs. reversible hydrogen electrode, RHE), a half-wave potential of 0.81 V (vs. RHE) and a high limiting current density (5.59 mA cm), comparable to a commercial Pt/C. The catalyst also shows good methanol tolerance as compared to Pt/C catalyst. This work highlights a bottom-up strategy for creating ternary Fe, N, B sites on carbon nanotubes using boron-containing ionic liquid precursor.
铁氮(Fe-N)共掺杂碳纳米材料是一种很有前景的氧还原反应(ORR)催化剂,具有低成本的出色催化活性。在此,我们展示了一种简便的自下而上策略,以离子液体作为掺杂源来制备铁、氮、硼共掺杂的竹节状碳纳米管。我们表明,铁、氮、硼在介孔碳结构中的协同效应可产生优异的ORR活性,其中FeNB/C-800催化剂的起始电位为0.97 V(相对于可逆氢电极,RHE),半波电位为0.81 V(相对于RHE),以及高极限电流密度(5.59 mA cm),与商业Pt/C相当。与Pt/C催化剂相比,该催化剂还表现出良好的甲醇耐受性。这项工作突出了一种使用含硼离子液体前驱体在碳纳米管上创建三元铁、氮、硼位点的自下而上策略。
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