Development of palladium catalysts modified by ruthenium and molybdenum as anode in direct ethanol fuel cell

IF 3.6 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Yonis Fornazier Filho, Ana Caroliny Carvalho da Cruz, Rolando Pedicini, José Ricardo Cezar Salgado, Priscilla Paiva Luz, Josimar Ribeiro
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引用次数: 5

Abstract

Physical and electrochemical properties of Pd catalysts combined with Ru and Mo on carbon support were investigated. To this end, Pd, Pd1.3Ru1.0, Pd3.2Ru1.3Mo1.0 and Pd1.5Ru0.8Mo1.0 were synthesized on Carbon Vulcan XC72 support by the method of thermal decomposition of polymeric precursors and then physically and electrochemically characterized. The highest reaction yields are obtained for Pd3.2Ru1.3Mo1.0/C and Pd1.5Ru0.8Mo1.0/C and, as demonstrated by thermal analysis, they also show the smallest metal/carbon ratio compared the other catalysts. XRD (X-ray Diffraction) and Raman analyses show the presence of PdO and RuO2 for the Pd/C and the Pd1.3Ru1.0/C catalysts, respectively, a fact not observed for the Pd3.2Ru1.3 Mo1.0 /C and the Pd1.5Ru0.8Mo1.0/C catalysts. The catalytic activities were tested for the ethanol oxidation in alkaline medium. Cyclic voltammetry (CV) shows Pd1.3Ru1.0/C exhibiting the highest peak of current density, followed by Pd3.2Ru1.3Mo1.0/C, Pd1.5Ru0.8Mo1.0/C and Pd/C. From, chronoamperometry (CA), it is possible to observe the lowest rate of poisoning for the Pd1.3Ru1.0/C, followed by Pd3.2Ru1.3Mo1.0/C, Pd1.5Ru0.8Mo1.0/C and Pd/C. These results suggested that catalytic activity of the binary and the ternary catalysts are improved in comparison with Pd/C. The presence of RuO2 activated the bifunctional mechanism and improved the catalytic activity in the Pd1.3Ru1.0/C catalyst. The addition of Mo in the catalysts enhanced the catalytic activity by the intrinsic mechanism, suggesting a synergistic effect between metals. In summary, we suggest that it is possible to synthesize ternary PdRuMo catalysts supported on Carbon Vulcan XC72, resulting in materials with lower poisoning rates and lower costs than Pd/C.

Abstract Image

直接乙醇燃料电池负极钌钼改性钯催化剂的研制
研究了碳载体上钌和钼复合钯催化剂的物理和电化学性能。为此,采用聚合物前驱体热分解的方法在Carbon Vulcan XC72载体上合成了Pd、Pd1.3Ru1.0、Pd3.2Ru1.3Mo1.0和Pd1.5Ru0.8Mo1.0,并对其进行了物理和电化学表征。Pd3.2Ru1.3Mo1.0/C和Pd1.5Ru0.8Mo1.0/C的反应产率最高,热分析表明,与其他催化剂相比,它们的金属碳比也最小。XRD (x射线衍射)和Raman分析表明,Pd/C和Pd1.3Ru1.0/C催化剂中分别存在PdO和RuO2,而Pd3.2Ru1.3 Mo1.0/C和Pd1.5Ru0.8Mo1.0/C催化剂中没有这种现象。在碱性培养基中对乙醇的氧化活性进行了测试。循环伏安法(CV)显示Pd1.3Ru1.0/C的电流密度峰值最高,其次是Pd3.2Ru1.3Mo1.0/C、Pd1.5Ru0.8Mo1.0/C和Pd/C。从计时电流法(CA)可以观察到Pd1.3Ru1.0/C的中毒率最低,其次是Pd3.2Ru1.3Mo1.0/C、Pd1.5Ru0.8Mo1.0/C和Pd/C。这些结果表明,与Pd/C相比,二元和三元催化剂的催化活性都有所提高。RuO2的存在激活了双功能机制,提高了Pd1.3Ru1.0/C催化剂的催化活性。Mo的加入通过内在机制增强了催化剂的催化活性,表明金属间存在协同作用。综上所述,我们认为在Carbon Vulcan XC72上合成三元PdRuMo催化剂是可能的,从而获得比Pd/C更低中毒率和更低成本的材料。
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来源期刊
Materials for Renewable and Sustainable Energy
Materials for Renewable and Sustainable Energy MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
7.90
自引率
2.20%
发文量
8
审稿时长
13 weeks
期刊介绍: Energy is the single most valuable resource for human activity and the basis for all human progress. Materials play a key role in enabling technologies that can offer promising solutions to achieve renewable and sustainable energy pathways for the future. Materials for Renewable and Sustainable Energy has been established to be the world''s foremost interdisciplinary forum for publication of research on all aspects of the study of materials for the deployment of renewable and sustainable energy technologies. The journal covers experimental and theoretical aspects of materials and prototype devices for sustainable energy conversion, storage, and saving, together with materials needed for renewable fuel production. It publishes reviews, original research articles, rapid communications, and perspectives. All manuscripts are peer-reviewed for scientific quality. Topics include: 1. MATERIALS for renewable energy storage and conversion: Batteries, Supercapacitors, Fuel cells, Hydrogen storage, and Photovoltaics and solar cells. 2. MATERIALS for renewable and sustainable fuel production: Hydrogen production and fuel generation from renewables (catalysis), Solar-driven reactions to hydrogen and fuels from renewables (photocatalysis), Biofuels, and Carbon dioxide sequestration and conversion. 3. MATERIALS for energy saving: Thermoelectrics, Novel illumination sources for efficient lighting, and Energy saving in buildings. 4. MATERIALS modeling and theoretical aspects. 5. Advanced characterization techniques of MATERIALS Materials for Renewable and Sustainable Energy is committed to upholding the integrity of the scientific record. As a member of the Committee on Publication Ethics (COPE) the journal will follow the COPE guidelines on how to deal with potential acts of misconduct. Authors should refrain from misrepresenting research results which could damage the trust in the journal and ultimately the entire scientific endeavor. Maintaining integrity of the research and its presentation can be achieved by following the rules of good scientific practice as detailed here: https://www.springer.com/us/editorial-policies
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