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Nanocomposite Catalyst for High-Performance and Durable Intermediate-Temperature Methane-Fueled Metal-Supported Solid Oxide Fuel Cells

CH4-fueled metal-supported solid oxide fuel cells (CH4-MS-SOFCs) are propitious as CH4 is low-priced and readily available, and its renewable production is possible, such as biomethane. However, the current CH4-MS-SOFCs suffer from either poor power density or short durable operation, which is ascri...

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Published in:ACS applied materials & interfaces 2022-12, Vol.14 (48), p.53840-53849
Main Authors: Liu, Fan, Diercks, David, Hussain, AbdulJabbar Mohammed, Dale, Nilesh, Furuya, Yoshihisa, Miura, Yohei, Fukuyama, Yosuke, Duan, Chuancheng
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cited_by cdi_FETCH-LOGICAL-a330t-430738b4fcf4f87beb6deebaf4bd31b292f68fbb890f26cd9e184703d9b5829c3
cites cdi_FETCH-LOGICAL-a330t-430738b4fcf4f87beb6deebaf4bd31b292f68fbb890f26cd9e184703d9b5829c3
container_end_page 53849
container_issue 48
container_start_page 53840
container_title ACS applied materials & interfaces
container_volume 14
creator Liu, Fan
Diercks, David
Hussain, AbdulJabbar Mohammed
Dale, Nilesh
Furuya, Yoshihisa
Miura, Yohei
Fukuyama, Yosuke
Duan, Chuancheng
description CH4-fueled metal-supported solid oxide fuel cells (CH4-MS-SOFCs) are propitious as CH4 is low-priced and readily available, and its renewable production is possible, such as biomethane. However, the current CH4-MS-SOFCs suffer from either poor power density or short durable operation, which is ascribed to the low catalytic activity and poor coking tolerance of the metallic anode support. Herein, we have deliberately designed and synthesized a highly active nanocomposite catalyst, Sm-doped CeO2-supported Ni, as the internal steam methane reforming catalyst, to optimize CH4-MS-SOFCs. Both power densities and durability of optimized CH4-MS-SOFCs have been dramatically enhanced compared to the pristine CH4-MS-SOFCs. The optimized CH4-MS-SOFCs deliver the highest performances among all zirconia-based CH4-MS-SOFCs. Furthermore, the operating temperature has been reduced to 600 °C. At 600 °C, a viable peak power density of >350 mW/cm2 is achieved, which is more than three times as high as the pristine CH4-MS-SOFCs. Furthermore, the optimized CH4-MS-SOFC achieves >1000 h of stable operation.
doi_str_mv 10.1021/acsami.2c16233
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subjects Energy, Environmental, and Catalysis Applications
title Nanocomposite Catalyst for High-Performance and Durable Intermediate-Temperature Methane-Fueled Metal-Supported Solid Oxide Fuel Cells
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