Enhanced performance of NiO–3YSZ planar anode-supported SOFC with an anode functional layer

Sainan Chen; Dongguang Gu; Yifeng Zheng; Han Chen; Lucun Guo

doi:10.1007/s10853-019-04007-4

Enhanced performance of NiO–3YSZ planar anode-supported SOFC with an anode functional layer

Sainan Chen, Dongguang Gu, Yifeng Zheng, Han Chen, Lucun Guo

College of Materials Science and Engineering

Nanjing Tech University

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

21 Scopus citations

Abstract

In this study, the planar anode-supported solid oxide fuel cells with straight opening pores were prepared by phase inversion method and the laser ablation technique. The microstructure, thermal expansion behavior, porosity and bending strength of anodes with 3 mol% Y₂O₃ doped ZrO₂ (3YSZ) and 8 mol% Y₂O₃ doped ZrO₂ (8YSZ) were investigated. The bending strength of 144 MPa for NiO–3YSZ planar anode was achieved, which was two times higher than that of NiO–8YSZ substrate. To improve the electrochemical performance of NiO–3YSZ planar anode, an anode functional layer of NiO–8YSZ was introduced between NiO–3YSZ anode and electrolyte layer by spin-coating method. The maximum power density of single cell with NiO–3YSZ anode was improved from 365 to 598 mW cm⁻² at 800 °C.

Original language	English
Pages (from-to)	88-98
Number of pages	11
Journal	Journal of Materials Science
Volume	55
Issue number	1
DOIs	https://doi.org/10.1007/s10853-019-04007-4
State	Published - 1 Jan 2020

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title = "Enhanced performance of NiO–3YSZ planar anode-supported SOFC with an anode functional layer",

abstract = "In this study, the planar anode-supported solid oxide fuel cells with straight opening pores were prepared by phase inversion method and the laser ablation technique. The microstructure, thermal expansion behavior, porosity and bending strength of anodes with 3 mol% Y2O3 doped ZrO2 (3YSZ) and 8 mol% Y2O3 doped ZrO2 (8YSZ) were investigated. The bending strength of 144 MPa for NiO–3YSZ planar anode was achieved, which was two times higher than that of NiO–8YSZ substrate. To improve the electrochemical performance of NiO–3YSZ planar anode, an anode functional layer of NiO–8YSZ was introduced between NiO–3YSZ anode and electrolyte layer by spin-coating method. The maximum power density of single cell with NiO–3YSZ anode was improved from 365 to 598 mW cm−2 at 800 °C.",

author = "Sainan Chen and Dongguang Gu and Yifeng Zheng and Han Chen and Lucun Guo",

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T1 - Enhanced performance of NiO–3YSZ planar anode-supported SOFC with an anode functional layer

AU - Chen, Sainan

AU - Gu, Dongguang

AU - Zheng, Yifeng

AU - Chen, Han

AU - Guo, Lucun

PY - 2020/1/1

Y1 - 2020/1/1

N2 - In this study, the planar anode-supported solid oxide fuel cells with straight opening pores were prepared by phase inversion method and the laser ablation technique. The microstructure, thermal expansion behavior, porosity and bending strength of anodes with 3 mol% Y2O3 doped ZrO2 (3YSZ) and 8 mol% Y2O3 doped ZrO2 (8YSZ) were investigated. The bending strength of 144 MPa for NiO–3YSZ planar anode was achieved, which was two times higher than that of NiO–8YSZ substrate. To improve the electrochemical performance of NiO–3YSZ planar anode, an anode functional layer of NiO–8YSZ was introduced between NiO–3YSZ anode and electrolyte layer by spin-coating method. The maximum power density of single cell with NiO–3YSZ anode was improved from 365 to 598 mW cm−2 at 800 °C.

AB - In this study, the planar anode-supported solid oxide fuel cells with straight opening pores were prepared by phase inversion method and the laser ablation technique. The microstructure, thermal expansion behavior, porosity and bending strength of anodes with 3 mol% Y2O3 doped ZrO2 (3YSZ) and 8 mol% Y2O3 doped ZrO2 (8YSZ) were investigated. The bending strength of 144 MPa for NiO–3YSZ planar anode was achieved, which was two times higher than that of NiO–8YSZ substrate. To improve the electrochemical performance of NiO–3YSZ planar anode, an anode functional layer of NiO–8YSZ was introduced between NiO–3YSZ anode and electrolyte layer by spin-coating method. The maximum power density of single cell with NiO–3YSZ anode was improved from 365 to 598 mW cm−2 at 800 °C.

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Enhanced performance of NiO–3YSZ planar anode-supported SOFC with an anode functional layer

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