Palladium nanoparticles as catalysts for Li-O2 battery cathodes

Hugh Geaney; Gillian Collins; Colm Glynn; Justin D. Holmes; Colm O'Dwyer

doi:10.1149/05812.0021ecst

Palladium nanoparticles as catalysts for Li-O₂ battery cathodes

Hugh Geaney
, Gillian Collins
, Colm Glynn
, Justin D. Holmes
, Colm O'Dwyer

School of Chemistry

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

Abstract

This report investigates the influence of electrolyte selection and the addition of Pd nanoparticle catalysts on the morphology of discharge products for Li-O₂ battery cathodes. Super P carbon cathodes (on stainless steel current collectors) were subjected to single discharges at various applied currents (50 μA, 100 μA, 250 μA) using either a sulfolane/LiTFSI or TEGDME/LITFSI electrolyte. The morphologies of the discharge product were noted to be different for each electrolyte while there was also a clear variation with respect to applied current. Finally, the impact of adding 25% (by weight) Pd nanoparticle catalysts to the cathodes was investigated. The results obtained show clearly that the nature of discharge products for Li-O₂ battery cathodes are strongly dependent on applied current, electrolyte choice and the addition of a catalyst material.

Original language	English
Pages (from-to)	21-29
Number of pages	9
Journal	ECS Transactions
Volume	58
Issue number	12
DOIs	https://doi.org/10.1149/05812.0021ecst
Publication status	Published - 2013

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10.1149/05812.0021ecst

https://hdl.handle.net/10468/6165Licence: CC BY-NC-ND

Cite this

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title = "Palladium nanoparticles as catalysts for Li-O2 battery cathodes",

abstract = "This report investigates the influence of electrolyte selection and the addition of Pd nanoparticle catalysts on the morphology of discharge products for Li-O2 battery cathodes. Super P carbon cathodes (on stainless steel current collectors) were subjected to single discharges at various applied currents (50 μA, 100 μA, 250 μA) using either a sulfolane/LiTFSI or TEGDME/LITFSI electrolyte. The morphologies of the discharge product were noted to be different for each electrolyte while there was also a clear variation with respect to applied current. Finally, the impact of adding 25\% (by weight) Pd nanoparticle catalysts to the cathodes was investigated. The results obtained show clearly that the nature of discharge products for Li-O2 battery cathodes are strongly dependent on applied current, electrolyte choice and the addition of a catalyst material.",

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T1 - Palladium nanoparticles as catalysts for Li-O2 battery cathodes

AU - Geaney, Hugh

AU - Collins, Gillian

AU - Glynn, Colm

AU - Holmes, Justin D.

AU - O'Dwyer, Colm

PY - 2013

Y1 - 2013

N2 - This report investigates the influence of electrolyte selection and the addition of Pd nanoparticle catalysts on the morphology of discharge products for Li-O2 battery cathodes. Super P carbon cathodes (on stainless steel current collectors) were subjected to single discharges at various applied currents (50 μA, 100 μA, 250 μA) using either a sulfolane/LiTFSI or TEGDME/LITFSI electrolyte. The morphologies of the discharge product were noted to be different for each electrolyte while there was also a clear variation with respect to applied current. Finally, the impact of adding 25% (by weight) Pd nanoparticle catalysts to the cathodes was investigated. The results obtained show clearly that the nature of discharge products for Li-O2 battery cathodes are strongly dependent on applied current, electrolyte choice and the addition of a catalyst material.

AB - This report investigates the influence of electrolyte selection and the addition of Pd nanoparticle catalysts on the morphology of discharge products for Li-O2 battery cathodes. Super P carbon cathodes (on stainless steel current collectors) were subjected to single discharges at various applied currents (50 μA, 100 μA, 250 μA) using either a sulfolane/LiTFSI or TEGDME/LITFSI electrolyte. The morphologies of the discharge product were noted to be different for each electrolyte while there was also a clear variation with respect to applied current. Finally, the impact of adding 25% (by weight) Pd nanoparticle catalysts to the cathodes was investigated. The results obtained show clearly that the nature of discharge products for Li-O2 battery cathodes are strongly dependent on applied current, electrolyte choice and the addition of a catalyst material.

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DO - 10.1149/05812.0021ecst

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AN - SCOPUS:84905010742

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VL - 58

SP - 21

EP - 29

JO - ECS Transactions

JF - ECS Transactions

IS - 12

ER -

Palladium nanoparticles as catalysts for Li-O₂ battery cathodes

Abstract

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