One-pot synthesis of silver-modified sulfur-tolerant anode for SOFCs with an expanded operation temperature window

Jifa Qu; Wei Wang; Tao Yang; Yubo Chen; Zongping Shao

doi:10.1002/aic.15649

One-pot synthesis of silver-modified sulfur-tolerant anode for SOFCs with an expanded operation temperature window

Jifa Qu, Wei Wang, Tao Yang, Yubo Chen, Zongping Shao

College of Chemical Engineering

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

To develop solid oxide fuel cells (SOFCs) capable of operating on sulfur-containing practical fuels at intermediate temperatures, further improvement of the sulfur tolerance of a Ni + BaZr_0.4Ce_0.4Y_0.2O_3-δ (BZCY) anode is attempted through the addition of some metal modifiers (Fe, Co, and Ag) by a one-pot synthesis approach. The effects of these modifiers on the electrical conductivity, morphology, sulfur tolerance, and electrochemical activity of the anode are systematically studied. As a result, the cell with Ag-modified Ni + BZCY anode demonstrates highest power output when operated on 1000 ppm H₂S-H₂ fuel. Furthermore, the Ag-modified anode displays much better stability than Ni + BZCY with 1000 ppm H₂S-H₂ fuel at 600°C. These results suggest that the addition of Ag modifier into Ni + BZCY is a promising and efficient method for improving the sulfur tolerance of SOFCs.

Original language	English
Pages (from-to)	4287-4295
Number of pages	9
Journal	AIChE Journal
Volume	63
Issue number	10
DOIs	https://doi.org/10.1002/aic.15649
State	Published - Oct 2017

Keywords

metal modifiers
nickel-based anode
solid oxide fuel cells
sulfur
water storage capability

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10.1002/aic.15649

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@article{a2de2b5023874703a386bf68fd489983,

title = "One-pot synthesis of silver-modified sulfur-tolerant anode for SOFCs with an expanded operation temperature window",

abstract = "To develop solid oxide fuel cells (SOFCs) capable of operating on sulfur-containing practical fuels at intermediate temperatures, further improvement of the sulfur tolerance of a Ni + BaZr0.4Ce0.4Y0.2O3-δ (BZCY) anode is attempted through the addition of some metal modifiers (Fe, Co, and Ag) by a one-pot synthesis approach. The effects of these modifiers on the electrical conductivity, morphology, sulfur tolerance, and electrochemical activity of the anode are systematically studied. As a result, the cell with Ag-modified Ni + BZCY anode demonstrates highest power output when operated on 1000 ppm H2S-H2 fuel. Furthermore, the Ag-modified anode displays much better stability than Ni + BZCY with 1000 ppm H2S-H2 fuel at 600°C. These results suggest that the addition of Ag modifier into Ni + BZCY is a promising and efficient method for improving the sulfur tolerance of SOFCs.",

keywords = "metal modifiers, nickel-based anode, solid oxide fuel cells, sulfur, water storage capability",

author = "Jifa Qu and Wei Wang and Tao Yang and Yubo Chen and Zongping Shao",

note = "Publisher Copyright: {\textcopyright} 2017 American Institute of Chemical Engineers",

year = "2017",

month = oct,

doi = "10.1002/aic.15649",

language = "英语",

volume = "63",

pages = "4287--4295",

journal = "AIChE Journal",

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TY - JOUR

T1 - One-pot synthesis of silver-modified sulfur-tolerant anode for SOFCs with an expanded operation temperature window

AU - Qu, Jifa

AU - Wang, Wei

AU - Yang, Tao

AU - Chen, Yubo

AU - Shao, Zongping

PY - 2017/10

Y1 - 2017/10

N2 - To develop solid oxide fuel cells (SOFCs) capable of operating on sulfur-containing practical fuels at intermediate temperatures, further improvement of the sulfur tolerance of a Ni + BaZr0.4Ce0.4Y0.2O3-δ (BZCY) anode is attempted through the addition of some metal modifiers (Fe, Co, and Ag) by a one-pot synthesis approach. The effects of these modifiers on the electrical conductivity, morphology, sulfur tolerance, and electrochemical activity of the anode are systematically studied. As a result, the cell with Ag-modified Ni + BZCY anode demonstrates highest power output when operated on 1000 ppm H2S-H2 fuel. Furthermore, the Ag-modified anode displays much better stability than Ni + BZCY with 1000 ppm H2S-H2 fuel at 600°C. These results suggest that the addition of Ag modifier into Ni + BZCY is a promising and efficient method for improving the sulfur tolerance of SOFCs.

AB - To develop solid oxide fuel cells (SOFCs) capable of operating on sulfur-containing practical fuels at intermediate temperatures, further improvement of the sulfur tolerance of a Ni + BaZr0.4Ce0.4Y0.2O3-δ (BZCY) anode is attempted through the addition of some metal modifiers (Fe, Co, and Ag) by a one-pot synthesis approach. The effects of these modifiers on the electrical conductivity, morphology, sulfur tolerance, and electrochemical activity of the anode are systematically studied. As a result, the cell with Ag-modified Ni + BZCY anode demonstrates highest power output when operated on 1000 ppm H2S-H2 fuel. Furthermore, the Ag-modified anode displays much better stability than Ni + BZCY with 1000 ppm H2S-H2 fuel at 600°C. These results suggest that the addition of Ag modifier into Ni + BZCY is a promising and efficient method for improving the sulfur tolerance of SOFCs.

KW - metal modifiers

KW - nickel-based anode

KW - solid oxide fuel cells

KW - sulfur

KW - water storage capability

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U2 - 10.1002/aic.15649

DO - 10.1002/aic.15649

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AN - SCOPUS:85028770704

SN - 0001-1541

VL - 63

SP - 4287

EP - 4295

JO - AIChE Journal

JF - AIChE Journal

IS - 10

ER -

One-pot synthesis of silver-modified sulfur-tolerant anode for SOFCs with an expanded operation temperature window

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Keywords

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