dafcs用氧化锆改性Pd电催化剂

Yuh-Jing Chiou, Maohua Chen, Yiwen Chang, Hong‐Ming Lin, A. Borodziński
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引用次数: 1

摘要

为了提高直接甲酸燃料电池(dafcs)的Pd基阳极催化剂的性能,研究工作主要包括提高催化剂活性和防止CO中毒。在本研究中,通过调整制备参数:金属添加量、烧结温度和气氛,制备了多种氧化锆修饰的多壁碳纳米管(MWCNTs)作为dafcs催化剂的钯载体。制备的纯氧化锆具有单斜相和四方相。MWCNTs的加入抑制了单斜相的生长。添加少量的钯可以使单斜和四边形的氧化锆结构再次出现。在MWCNTs和四边形ZrO2/MWCNTs上合成的Pd纳米颗粒粒径为20 wt%,两者相似,而Pd/[Pd:ZrO2/AO-MWCNTs-300Air-900Ar]具有更多的纳米颗粒聚集。添加氧化锆可以提高钯催化剂的电化学比表面积,表明氧化锆修饰的钯催化剂具有更好的电催化性能。通过对最大电流密度和相应电位的分析,推断Pd/AO-MWCNTs最初经历甲酸直接氧化。四方ZrO2改性的钯催化剂具有较高的电流密度。同时具有四方和单斜ZrO2改性Pd催化剂的催化剂具有较低的甲酸氧化电位。经氧化锆改性的钯基催化剂均具有较好的抗CO能力和电催化活性。Pd/[ZrO2/AO-MWCNTs-300Air-900Ar]和Pd/[Pd:ZrO2/AO-MWCNTs-300Air-900Ar]是催化甲酸直接氧化的最佳催化剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Zirconia Modified Pd Electrocatalysts for DFAFCs
In order to enhance the Pd based anodic catalysts for direct formic acid fuel cells (DFAFCs), the research work includes increasing catalyst activity and preventing CO poison. In this study, various zirconium oxides-modified multi-walled carbon nanotubes (MWCNTs) were prepared as the supports of Pd catalysts for DFAFCs by adjusting the preparation parameters: metal adding, sintering temperature and atmospheres. The prepared pure zirconia has both monoclinic and tetragonal phases. The addition of MWCNTs depresses the growth of monoclinic phase. A small amount of Pd adding allows both monoclinic and tetragonal zirconia structures to appear again. Pd nanoparticles of 20 wt% synthesized on MWCNTs and tetragonal ZrO2/MWCNTs have similar particle size, while Pd/[Pd:ZrO2/AO-MWCNTs-300Air-900Ar] have more nanoparticles aggregation. The electrochemical surface area can be improved by adding zirconia which implies those zirconia modified Pd catalysts better electrocatalytic performance. By analyzing the maximum current density and the corresponding potential, Pd/AO-MWCNTs are inferred to undergo the formic acid direct oxidation initially. The Pd catalysts modified by tetragonal ZrO2 have higher current density. Those having both tetragonal and monoclinic ZrO2 modified Pd catalysts have lower potential of formic acid oxidation. All the Pd based catalysts with zirconia modification possess better CO resist ability and electrocatalytic activity. Pd/[ZrO2/AO-MWCNTs-300Air-900Ar] and Pd/[Pd:ZrO2/AO-MWCNTs-300Air-900Ar] which catalyze formic acid in direct oxidation path are the two best catalysts.
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