The comprehensive understanding of 10 mA cm(geo)−2 as an evaluation parameter for electrochemical water splitting
Comparing the overpotential required to reach the current density of 10mA cm(geo)-2 (per geometric area of an electrode) (η@10mA cm(geo)-2) is a popular method of ranking electrocatalysts for water-splitting reactions, i.e., the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OE...
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sg-ntu-dr.10356-1385412021-01-07T03:16:02Z The comprehensive understanding of 10 mA cm(geo)−2 as an evaluation parameter for electrochemical water splitting Wei, Chao Xu, Jason Zhichuan School of Materials Science & Engineering The Cambridge Centre For Advanced Research And Education In Singapore Solar Fuels Laboratory Energy Research Institute @ NTU (ERI@N) Engineering::Materials 10 mA cm(geo)−2 Electrochemical Water Splitting Intrinsic Activity Comparing the overpotential required to reach the current density of 10mA cm(geo)-2 (per geometric area of an electrode) (η@10mA cm(geo)-2) is a popular method of ranking electrocatalysts for water-splitting reactions, i.e., the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER).However, such methodology is, in essence, not reasonable for studying the intrinsic chemistry difference of electrocatalysts. To have a rational understanding of η@ 10 mA cm(geo)-2, here, its historical origin and its limitations on reflecting the intrinsic electrocatalytic activity are discussed. The η@10mA cm(geo)-2 is a valid practical parameter to assess water-splitting devices, but it cannot determine whether a particular electrocatalyst is intrinsically active or not. MOE (Min. of Education, S’pore) 2020-05-08T01:26:08Z 2020-05-08T01:26:08Z 2018 Journal Article Wei, C., & Xu, J. Z. (2018). The comprehensive understanding of 10 mA cm(geo)−2 as an evaluation parameter for electrochemical water splitting. Small Methods, 2(11), 1800168-. doi:10.1002/smtd.201800168 2366-9608 https://hdl.handle.net/10356/138541 10.1002/smtd.201800168 11 2 en Small Methods © 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. All rights reserved. |
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Engineering::Materials 10 mA cm(geo)−2 Electrochemical Water Splitting Intrinsic Activity Wei, Chao Xu, Jason Zhichuan The comprehensive understanding of 10 mA cm(geo)−2 as an evaluation parameter for electrochemical water splitting |
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Comparing the overpotential required to reach the current density of 10mA cm(geo)-2 (per geometric area of an electrode) (η@10mA cm(geo)-2) is a popular method of ranking electrocatalysts for water-splitting reactions, i.e., the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER).However, such methodology is, in essence, not reasonable for studying the intrinsic chemistry difference of electrocatalysts. To have a rational understanding of η@ 10 mA cm(geo)-2, here, its historical origin and its limitations on reflecting the intrinsic electrocatalytic activity are discussed. The η@10mA cm(geo)-2 is a valid practical parameter to assess water-splitting devices, but it cannot determine whether a particular electrocatalyst is intrinsically active or not. |
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School of Materials Science & Engineering |
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School of Materials Science & Engineering Wei, Chao Xu, Jason Zhichuan |
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Article |
| author |
Wei, Chao Xu, Jason Zhichuan |
| author_sort |
Wei, Chao |
| title |
The comprehensive understanding of 10 mA cm(geo)−2 as an evaluation parameter for electrochemical water splitting |
| title_short |
The comprehensive understanding of 10 mA cm(geo)−2 as an evaluation parameter for electrochemical water splitting |
| title_full |
The comprehensive understanding of 10 mA cm(geo)−2 as an evaluation parameter for electrochemical water splitting |
| title_fullStr |
The comprehensive understanding of 10 mA cm(geo)−2 as an evaluation parameter for electrochemical water splitting |
| title_full_unstemmed |
The comprehensive understanding of 10 mA cm(geo)−2 as an evaluation parameter for electrochemical water splitting |
| title_sort |
comprehensive understanding of 10 ma cm(geo)−2 as an evaluation parameter for electrochemical water splitting |
| publishDate |
2020 |
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https://hdl.handle.net/10356/138541 |
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