Journal ArticleDOI
A high-performance cathode for the next generation of solid-oxide fuel cells
Zongping Shao,Sossina M. Haile +1 more
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TLDR
BSCF is presented as a new cathode material for reduced-temperature SOFC operation and demonstrated that BSCF is ideally suited to ‘single-chamber’ fuel-cell operation, where anode and cathode reactions take place within the same physical chamber.Abstract:
Fuel cells directly and efficiently convert chemical energy to electrical energy. Of the various fuel cell types, solid-oxide fuel cells (SOFCs) combine the benefits of environmentally benign power generation with fuel flexibility. However, the necessity for high operating temperatures (800–1,000 °C) has resulted in high costs and materials compatibility challenges. As a consequence, significant effort has been devoted to the development of intermediate-temperature (500–700 °C) SOFCs. A key obstacle to reduced-temperature operation of SOFCs is the poor activity of traditional cathode materials for electrochemical reduction of oxygen in this temperature regime2. Here we present Ba_(0.5_Sr_(0.5)Co_(0.8)Fe_(0.2)O_(3-delta) (BSCF) as a new cathode material for reduced-temperature SOFC operation. BSCF, incorporated into a thin-film doped ceria fuel cell, exhibits high power densities (1,010 mW cm^(-2) and 402 mW cm^(-2) at 600 °C and 500 °C, respectively) when operated with humidified hydrogen as the fuel and air as the cathode gas. We further demonstrate that BSCF is ideally suited to 'single-chamber' fuel-cell operation, where anode and cathode reactions take place within the same physical chamber. The high power output of BSCF cathodes results from the high rate of oxygen diffusion through the material. By enabling operation at reduced temperatures, BSCF cathodes may result in widespread practical implementation of SOFCs.read more
Citations
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Journal ArticleDOI
Applicability of La2Mo2−yWyO9 materials as solid electrolyte for SOFCs
David Marrero-López,J. Peña-Martínez,Juan Carlos Ruiz-Morales,Domingo Pérez-Coll,M.C. Martín-Sedeño,Pedro Núñez +5 more
TL;DR: In this paper, the ionic conductivity and degradation of the ceramic microstructure are observed as a consequence of the cell volume expansion in addition to the formation of new phases upon reduction.
Journal ArticleDOI
B Cation Ordered Double Perovskite Ba2CoMo0.5Nb0.5O6-δ As a Potential SOFC Cathode
Z. Q. Deng,J. P. Smit,Hongjun Niu,Gary Evans,Man-Rong Li,Zhongling Xu,John B. Claridge,Matthew J. Rosseinsky +7 more
TL;DR: In this paper, the cubic B site cation-ordered double perovskite system Ba2CoMo 0.5Nb0.5O6−δ (BCMN) with a mixed Co charge state stabilized by a combination of Mo and Nb doping was evaluated.
Journal ArticleDOI
Electrospun Porous Perovskite La0.6Sr0.4Co1–xFexO3–δ Nanofibers for Efficient Oxygen Evolution Reaction
Dongxing Zhen,Dongxing Zhen,Bote Zhao,Heon-Cheol Shin,Yunfei Bu,Yong Ding,Gaohong He,Meilin Liu +7 more
TL;DR: In this paper, a series of porous La0.6Sr0.4Co 0.6Fe 0.4O3-δ (LSCF6464) nanofibers with diameters of 54-71 nm are synthesized by electrospinning using appropriate polymers and different processing parameters.
Journal ArticleDOI
Effect of process parameters on combined EDTA–citrate synthesis of Ba0.5Sr0.5Co0.8Fe0.2O3 − δ perovskite
TL;DR: In this paper, a pure phase BSCF powder is obtained on calcining the combustion residue at 950°C and above, and a possible reaction sequences leading to the formation of pure phase biclomerated powders are suggested from the study of XRD pattern as a function of calcination temperatures.
Journal ArticleDOI
Atomic structures and oxygen dynamics of CeO2 grain boundaries.
Bin Feng,Issei Sugiyama,Hajime Hojo,Hiromichi Ohta,Naoya Shibata,Yuichi Ikuhara,Yuichi Ikuhara +6 more
TL;DR: Direct atomic scale evidence is reported that oxygen vacancies formed in the GBs can modify the local surface oxygen dynamics in CeO2, a key material for fuel cells, and provides critical understanding of GB properties down to atomic scale.
References
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Journal ArticleDOI
Materials for fuel-cell technologies
TL;DR: Recent progress in the search and development of innovative alternative materials in the development of fuel-cell stack is summarized.
Journal ArticleDOI
Appraisal of Ce1−yGdyO2−y/2 electrolytes for IT-SOFC operation at 500°C
TL;DR: In this article, the authors evaluated thermodynamic and electrical conductivity data to select the most appropriate electrolyte composition for IT-SOFC operation at 500°C and found that the Gd 3+ ion is the preferred dopant, compared to Sm 3+ and Y 3+, at this temperature.
Journal ArticleDOI
Investigation of the permeation behavior and stability of a Ba0.5Sr0.5Co0.8Fe0.2O3−δ oxygen membrane
TL;DR: In this article, a combined citrate-EDTA complexing method was used for the preparation of SCFO and Ba0.2O3-delta (BSCFO) oxides, and the results of O-2-TPD and XRD showed that the introduction of barium into SCFO could effectively suppress the oxidation of Co3+ and Fe3+ to higher valence states of Co4 and Fe4+ in the lattice and stabilize the perovskite structure under lower oxygen partial pressures.
Journal ArticleDOI
Recent Advances in Materials for Fuel Cells
TL;DR: In this paper, material requirements for SOFC and PEMFC stacks, together with an introductory section on materials technology for reformers, are discussed, and it is concluded that the introduction of alternative materials/processes that would enable SOFC stacks to operate at 150-200°C, and IT-SOFC stacks at 500-700°C would have a major impact on the successful commercialization of fuel cell technology.
Journal ArticleDOI
A low-operating-temperature solid oxide fuel cell in hydrocarbon-Air mixtures
Takashi Hibino,Atsuko Hashimoto,Takao Inoue,Jun-ichi Tokuno,Shin-ichiro Yoshida,Mitsuru Sano +5 more
TL;DR: The performance of a single-chamber solid oxide fuel cell was studied using a ceria-basedsolid electrolyte at temperatures below 773 kelvin, where the solid electrolyte functioned as a purely ionic conductor.