Quantification of Carbon Dioxide Poisoning in Air Breathing Alkaline Fuel Cells

Sambhy, Varun; Tewari, Ashutosh; Sen, Ayusman; Macdonald, Mirna

doi:10.1149/ma2005-01/3/135

Meet. Abstr.

2006

DOI: 10.1149/ma2005-01/3/135

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Quantification of Carbon Dioxide Poisoning in Air Breathing Alkaline Fuel Cells

Varun Sambhy¹,

Ashutosh Tewari²,

Ayusman Sen³

et al.

Abstract: not Available.

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Progress in proton‐conducting oxides as electrolytes for low‐temperature solid oxide fuel cells: From materials to devices

Zhang

2021

Energy Science & Engineering

136

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Among various types of alternative energy devices, solid oxide fuel cells (SOFCs) operating at low temperatures (300‐600°C) show the advantages for both stationary and mobile electricity production. Proton‐conducting oxides as electrolyte materials play a critical role in the low‐temperature SOFCs (LT‐SOFCs). This review summarizes progress in proton‐conducting solid oxide electrolytes for LT‐SOFCs from materials to devices, with emphases on (1) strategies that have been proposed to tune the structures and properties of proton‐conducting oxides and ceramics, (2) techniques that have been employed for improving the performance of the protonic ceramic‐based SOFCs (known as PCFCs), and (3) challenges and opportunities in the development of proton‐conducting electrolyte‐based PCFCs.

show abstract

Progress in proton‐conducting oxides as electrolytes for low‐temperature solid oxide fuel cells: From materials to devices

Zhang

2021

Energy Science & Engineering

136

View full text Add to dashboard Cite

show abstract

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Quantification of Carbon Dioxide Poisoning in Air Breathing Alkaline Fuel Cells

Abstract: not Available.

Cited by 1 publication

References 0 publications

Progress in proton‐conducting oxides as electrolytes for low‐temperature solid oxide fuel cells: From materials to devices

Progress in proton‐conducting oxides as electrolytes for low‐temperature solid oxide fuel cells: From materials to devices

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