Performance of Y0.9Sr0.1Cr0.9Fe0.1O3−δ as a sulfur-tolerant anode material for intermediate temperate solid oxide fuel cells

Perovskite-type Y0.9Sr0.1Cr0.9Fe0.1O3−δ maintained good chemical stability under a H2S-containing atmosphere based on results from X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FT-IR) in our previous study. In this research, the YSCF-based anode was studied using H2 and H2S-co...

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Published in	Journal of power sources Vol. 250; pp. 143 - 151
Main Authors	Bu, Yun-Fei, Zhong, Qin, Xu, Dan-Dan, Zhao, Xiao-Lu, Tan, Wen-Yi
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 15.03.2014 Elsevier
Subjects	Applied sciences Direct energy conversion and energy accumulation Electrical engineering. Electrical power engineering Electrical power engineering Electrochemical conversion: primary and secondary batteries, fuel cells Energy Energy. Thermal use of fuels Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc Exact sciences and technology Fuel cells Hydrogen sulfide Materials Perovskite Solid oxide fuel cell YSCF anode YSCF anode Hydrogen sulfide Perovskite Solid oxide fuel cell Performance evaluation Hydrogen Sulfides Anode Perovskite type compound Tolerance Electrode material Performance Sulfur
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Abstract	Perovskite-type Y0.9Sr0.1Cr0.9Fe0.1O3−δ maintained good chemical stability under a H2S-containing atmosphere based on results from X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FT-IR) in our previous study. In this research, the YSCF-based anode was studied using H2 and H2S-containing fuels. The activity of an electrode is closely related to its material composition, lattice structure, physic-chemical properties, and morphologic structure. Therefore, the characteristics of the YSCF powders and the cell were analyzed by XRD, Brunauer–Emmett–Teller (BET) surface area analysis, and scanning electron microscopy (SEM). The conductivities of YSCF were evaluated by four-probe method in 10% H2–N2, 1% H2S–N2 and air, respectively. Thermodynamic calculations and X-ray photoelectron spectroscopy (XPS) analysis have been used to investigate the stability of the elements in YSCF upon exposure to hydrogen sulfide (H2S) in hydrogen (H2) over a range of partial pressures of sulfur (pS2) and oxygen (pO2) that are representative of fuel cell operating conditions. In addition, the performance of the complete cell (YSCF–SDC\|SDC\|Ag) under H2S and H2 fuel mixtures was also evaluated by electrochemical impedance spectra (EIS) and I–V and I–P curves. The emergence of FeSO4 in the sulfur treatment should play an important role in preventing further sulfur-poisoning. [Display omitted] The Y0.9Sr0.1Cr0.9Fe0.1O3−δ was synthesized by gel combustion method. The YSCF-based anode was studied for further research as the real anode for SOFC operating on H2S or H2S-containing fuels. The characteristic of YSCF powders and the cell were analysis by XRD, BET, and EIS. It appeared to be chemically and electrochemically stable under SOFC operating conditions. Thermodynamic calculations and X-ray photoelectron spectroscopy (XPS) analysis have been used to research the stability of the element in YSCF when exposed to hydrogen sulphide (H2S) in hydrogen (H2) over a range of partial pressures of sulfur (pS2) and oxygen (pO2) representative of fuel cell operating conditions. By using analysis of electrochemical performance and XPS, the emergence of FeSO4 in the sulfur treatment should play an important role to prevent further sulfur-poisoning. •Y0.9Sr0.1Cr0.9Fe0.1O3−δ as an anode material for SOFC was examined.•YSCF was an active anode for the oxidation of the H2S-containing fuel.•YSCF was tested by EIS under different gas environment as an SOFC anode.
AbstractList	Perovskite-type Y0.9Sr0.1Cr0.9Fe0.1O3- delta maintained good chemical stability under a H2S-containing atmosphere based on results from X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FT-IR) in our previous study. In this research, the YSCF-based anode was studied using H2 and H2S-containing fuels. The activity of an electrode is closely related to its material composition, lattice structure, physic-chemical properties, and morphologic structure. Therefore, the characteristics of the YSCF powders and the cell were analyzed by XRD, Brunauer-Emmett-Teller (BET) surface area analysis, and scanning electron microscopy (SEM). The conductivities of YSCF were evaluated by four-probe method in 10% H2-N2, 1% H2S-N2 and air, respectively. Thermodynamic calculations and X-ray photoelectron spectroscopy (XPS) analysis have been used to investigate the stability of the elements in YSCF upon exposure to hydrogen sulfide (H2S) in hydrogen (H2) over a range of partial pressures of sulfur (pS2) and oxygen (pO2) that are representative of fuel cell operating conditions. In addition, the performance of the complete cell (YSCF-SDC\|SDC\|Ag) under H2S and H2 fuel mixtures was also evaluated by electrochemical impedance spectra (EIS) and I-V and I-P curves. The emergence of FeSO4 in the sulfur treatment should play an important role in preventing further sulfur-poisoning. Perovskite-type Y0.9Sr0.1Cr0.9Fe0.1O3−δ maintained good chemical stability under a H2S-containing atmosphere based on results from X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FT-IR) in our previous study. In this research, the YSCF-based anode was studied using H2 and H2S-containing fuels. The activity of an electrode is closely related to its material composition, lattice structure, physic-chemical properties, and morphologic structure. Therefore, the characteristics of the YSCF powders and the cell were analyzed by XRD, Brunauer–Emmett–Teller (BET) surface area analysis, and scanning electron microscopy (SEM). The conductivities of YSCF were evaluated by four-probe method in 10% H2–N2, 1% H2S–N2 and air, respectively. Thermodynamic calculations and X-ray photoelectron spectroscopy (XPS) analysis have been used to investigate the stability of the elements in YSCF upon exposure to hydrogen sulfide (H2S) in hydrogen (H2) over a range of partial pressures of sulfur (pS2) and oxygen (pO2) that are representative of fuel cell operating conditions. In addition, the performance of the complete cell (YSCF–SDC\|SDC\|Ag) under H2S and H2 fuel mixtures was also evaluated by electrochemical impedance spectra (EIS) and I–V and I–P curves. The emergence of FeSO4 in the sulfur treatment should play an important role in preventing further sulfur-poisoning. [Display omitted] The Y0.9Sr0.1Cr0.9Fe0.1O3−δ was synthesized by gel combustion method. The YSCF-based anode was studied for further research as the real anode for SOFC operating on H2S or H2S-containing fuels. The characteristic of YSCF powders and the cell were analysis by XRD, BET, and EIS. It appeared to be chemically and electrochemically stable under SOFC operating conditions. Thermodynamic calculations and X-ray photoelectron spectroscopy (XPS) analysis have been used to research the stability of the element in YSCF when exposed to hydrogen sulphide (H2S) in hydrogen (H2) over a range of partial pressures of sulfur (pS2) and oxygen (pO2) representative of fuel cell operating conditions. By using analysis of electrochemical performance and XPS, the emergence of FeSO4 in the sulfur treatment should play an important role to prevent further sulfur-poisoning. •Y0.9Sr0.1Cr0.9Fe0.1O3−δ as an anode material for SOFC was examined.•YSCF was an active anode for the oxidation of the H2S-containing fuel.•YSCF was tested by EIS under different gas environment as an SOFC anode.
Author	Zhao, Xiao-Lu Tan, Wen-Yi Bu, Yun-Fei Xu, Dan-Dan Zhong, Qin
Author_xml	– sequence: 1 givenname: Yun-Fei surname: Bu fullname: Bu, Yun-Fei email: jpu441@yahoo.com organization: School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China – sequence: 2 givenname: Qin surname: Zhong fullname: Zhong, Qin email: ZQ304@mail.njust.edu.cn organization: School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China – sequence: 3 givenname: Dan-Dan surname: Xu fullname: Xu, Dan-Dan organization: School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China – sequence: 4 givenname: Xiao-Lu surname: Zhao fullname: Zhao, Xiao-Lu organization: School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China – sequence: 5 givenname: Wen-Yi surname: Tan fullname: Tan, Wen-Yi organization: Department of Environment Engineering, Nanjing Institute of Technology, Nanjing 211167, Jiangsu, China
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Keywords	YSCF anode Hydrogen sulfide Perovskite Solid oxide fuel cell Performance evaluation Hydrogen Sulfides Anode Perovskite type compound Tolerance Electrode material Performance Sulfur
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Snippet	Perovskite-type Y0.9Sr0.1Cr0.9Fe0.1O3−δ maintained good chemical stability under a H2S-containing atmosphere based on results from X-ray diffraction (XRD) and... Perovskite-type Y0.9Sr0.1Cr0.9Fe0.1O3- delta maintained good chemical stability under a H2S-containing atmosphere based on results from X-ray diffraction (XRD)...
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SubjectTerms	Applied sciences Direct energy conversion and energy accumulation Electrical engineering. Electrical power engineering Electrical power engineering Electrochemical conversion: primary and secondary batteries, fuel cells Energy Energy. Thermal use of fuels Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc Exact sciences and technology Fuel cells Hydrogen sulfide Materials Perovskite Solid oxide fuel cell YSCF anode
Title	Performance of Y0.9Sr0.1Cr0.9Fe0.1O3−δ as a sulfur-tolerant anode material for intermediate temperate solid oxide fuel cells
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