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Novel Carbon-based Electrode Materials for Up-scaled Microfluidic Fuel Cells.

机译：用于高档微流控燃料电池的新型碳基电极材料。

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In this work, a MFC fabrication procedure including two non-conventional techniques (partial baking and cap-sealing) were employed for the development of an up-scaled microfluidic fuel cell (MFC). Novel carbon-based electrode materials were employed, including carbon foam, fibre, and cloth, the results from which were compared with traditionally-employed carbon paper. The utilization of carbon cloth led to 15% of the maximum power that resulted from carbon paper; however, carbon fibre led to a 24.6% higher power density than carbon paper (normalized by electrode volume). When normalized by projected electrode area, the utilization of carbon foams resulted in power densities up to 42.5% higher than that from carbon paper. The impact of catalyst loading on MFC performance was also investigated, with an increase from 10.9 to 48.3 mgPt cm-2 resulting in a 195% increase in power density.

机译：在这项工作中，采用包括两种非常规技术（部分烘烤和封口）的MFC制造程序来开发大型微流燃料电池（MFC）。使用了新型的碳基电极材料，包括碳泡沫，纤维和布，并将其结果与传统的碳纸进行了比较。碳布的使用占了碳纸最大功率的15％。然而，碳纤维导致的功率密度比碳纸高24.6％（按电极体积归一化）。当通过预计的电极面积进行归一化时，碳泡沫的使用导致功率密度比碳纸高42.5％。还研究了催化剂负载量对MFC性能的影响，其从10.9 mgPt cm-2增加到48.3 mgPt cm-2，导致功率密度增加了195％。

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作者
Fuerth, Dillon Adam.;
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作者单位

University of Toronto (Canada).;

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授予单位 University of Toronto (Canada).;
学科 Energy.;Engineering Materials Science.
学位 M.A.Sc.
年度 2012
页码 78 p.
总页数 78
原文格式 PDF
正文语种 eng
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1. Up-Scaled Microfluidic Fuel Cells With Porous Flow-Through Electrodes [J] . D. Fuerth, A. Bazylak Journal of Fluids Engineering: Transactions of the ASME . 2013,第2期

机译：具有多孔流通电极的高档微流控燃料电池
2. Non-Conventional Electrochemical Techniques for Assembly of Electrodes on Glassy Carbon-Like PPF Materials and Their Use in a Glucose Microfluidic Fuel-Cell [J] . Dector A., Arjona N., Guerra-Balcazar M., Fuel cells . 2014,第6期

机译：在玻璃碳状PPF材料上组装电极的非常规电化学技术及其在葡萄糖微流控燃料电池中的应用
3. Chemistry of Renewable Carbon-Based Raw Materials for the Production of Chemicals and Fuels [J] . Vogel G. Herbert Chemie-Ingenieur-Technik: Verfahrenstechnik Technische Chemie Apparatewesen Biotechnologie . 2014,第12期

机译：用于生产化学品和燃料的可再生碳基原料的化学
4. NUMERICAL ANALYSIS OF THE EFFECT OF DIFFERENT CHANNEL GEOMETRIES AND ELECTRODE MATERIALS ON THE PERFORMANCE OF MICROFLUIDIC FUEL CELLS [C] . Ali Ebrahimi Khabbazi, Andrew Richards, Mina Hoorfar International conference on nanochannels, microchannels and minichannels;ICNMM2010 . 2011

机译：通道几何形状和电极材料对微流控燃料电池性能影响的数值分析
5. Development of novel cathode materials and optimization of electrode performance towards scaling-up applications of microbial fuel cells. [D] . Zhang, Fang. 2012

机译：新型阴极材料的开发和电极性能的优化，以扩大微生物燃料电池的应用范围。
6. Carbon-Based Nanomaterials in Biomass-Based Fuel-Fed Fuel Cells [O] . Le Quynh Hoa, Mun’delanji C. Vestergaard, Eiichi Tamiya 2017

机译：生物质燃料电池中的碳纳米材料
7. Enhanced Power Stability for Proton Conducting Solid Oxides Fuel Cells. Calculated energy barriers for proton diffusion in Y-doped BaZrO3. Potential electrode materials for application in proton ceramic fuel cells. [O] . Merinov, Boris, Haile, Sossina, III, William A. Goddard 2005

机译：提高质子传导固体氧化物燃料电池的功率稳定性。计算Y掺杂BaZrO3中质子扩散的能垒。用于质子陶瓷燃料电池的潜在电极材料。
8. Enhanced Power Stability for Proton Conducting Solid Oxides Fuel Cells. Calculated energy barriers for proton diffusion in Y-doped BaZrO3. Potential electrode materials for application in proton ceramic fuel cells. [R] . 2005

机译：提高质子传导固体氧化物燃料电池的功率稳定性。计算Y掺杂BaZrO3中质子扩散的能垒。用于质子陶瓷燃料电池的潜在电极材料。

Novel Carbon-based Electrode Materials for Up-scaled Microfluidic Fuel Cells.

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