Using operando techniques to understand and design high performance and stable alkaline membrane fuel cells

Modern alkaline membrane fuel cells have generally shown very poor operational stability. Here, the authors combine operando neutron imaging and X-ray computed tomography to understand the root cause for this and then design new electrodes to enable high performance and operational stability.

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Autores principales: Xiong Peng, Devashish Kulkarni, Ying Huang, Travis J. Omasta, Benjamin Ng, Yiwei Zheng, Lianqin Wang, Jacob M. LaManna, Daniel S. Hussey, John R. Varcoe, Iryna V. Zenyuk, William E. Mustain
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Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/10fea85046de442aad563986208c2492
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spelling oai:doaj.org-article:10fea85046de442aad563986208c24922021-12-02T17:01:30ZUsing operando techniques to understand and design high performance and stable alkaline membrane fuel cells10.1038/s41467-020-17370-72041-1723https://doaj.org/article/10fea85046de442aad563986208c24922020-07-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-17370-7https://doaj.org/toc/2041-1723Modern alkaline membrane fuel cells have generally shown very poor operational stability. Here, the authors combine operando neutron imaging and X-ray computed tomography to understand the root cause for this and then design new electrodes to enable high performance and operational stability.Xiong PengDevashish KulkarniYing HuangTravis J. OmastaBenjamin NgYiwei ZhengLianqin WangJacob M. LaMannaDaniel S. HusseyJohn R. VarcoeIryna V. ZenyukWilliam E. MustainNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-10 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Xiong Peng
Devashish Kulkarni
Ying Huang
Travis J. Omasta
Benjamin Ng
Yiwei Zheng
Lianqin Wang
Jacob M. LaManna
Daniel S. Hussey
John R. Varcoe
Iryna V. Zenyuk
William E. Mustain
Using operando techniques to understand and design high performance and stable alkaline membrane fuel cells
description Modern alkaline membrane fuel cells have generally shown very poor operational stability. Here, the authors combine operando neutron imaging and X-ray computed tomography to understand the root cause for this and then design new electrodes to enable high performance and operational stability.
format article
author Xiong Peng
Devashish Kulkarni
Ying Huang
Travis J. Omasta
Benjamin Ng
Yiwei Zheng
Lianqin Wang
Jacob M. LaManna
Daniel S. Hussey
John R. Varcoe
Iryna V. Zenyuk
William E. Mustain
author_facet Xiong Peng
Devashish Kulkarni
Ying Huang
Travis J. Omasta
Benjamin Ng
Yiwei Zheng
Lianqin Wang
Jacob M. LaManna
Daniel S. Hussey
John R. Varcoe
Iryna V. Zenyuk
William E. Mustain
author_sort Xiong Peng
title Using operando techniques to understand and design high performance and stable alkaline membrane fuel cells
title_short Using operando techniques to understand and design high performance and stable alkaline membrane fuel cells
title_full Using operando techniques to understand and design high performance and stable alkaline membrane fuel cells
title_fullStr Using operando techniques to understand and design high performance and stable alkaline membrane fuel cells
title_full_unstemmed Using operando techniques to understand and design high performance and stable alkaline membrane fuel cells
title_sort using operando techniques to understand and design high performance and stable alkaline membrane fuel cells
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/10fea85046de442aad563986208c2492
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