Increased Readiness for Water Splitting: NiO-Induced Weakening of Bonds in Water Molecules as Possible Cause of Ultra-Low Oxygen Evolution Potential
Bookholt T, Qin X, Lilli B, Enke D, Huck M, Balkenhohl D, Ruwe K, Brune J, Klare JP, Kupper K, Schuster A, et al. (2024)
Small : 2310665.
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Autor*in
Bookholt, Tom;
Qin, Xian;
Lilli, Bettina;
Enke, Dirk;
Huck, Marten;
Balkenhohl, Danni;
Ruwe, Klara;
Brune, Julia;
Klare, Johann P;
Kupper, Karsten;
Schuster, Anja;
Bergjan, Jenrik
Alle
Alle
Abstract / Bemerkung
The development of non-precious metal-based electrodes that actively and stably support the oxygen evolution reaction (OER) in water electrolysis systems remains a challenge, especially at low pH levels. The recently published study has conclusively shown that the addition of haematite to H2 SO4 is a highly effective method of significantly reducing oxygen evolution overpotential and extending anode life. The far superior result is achieved by concentrating oxygen evolution centres on the oxide particles rather than on the electrode. However, unsatisfactory Faradaic efficiencies of the OER and hydrogen evolution reaction (HER) parts as well as the required high haematite load impede applicability and upscaling of this process. Here it is shown that the same performance is achieved with three times less metal oxide powder if NiO/H2 SO4 suspensions are used along with stainless steel anodes. The reason for the enormous improvement in OER performance by adding NiO to the electrolyte is the weakening of the intramolecular O─H bond in the water molecules, which is under the direct influence of the nickel oxide suspended in the electrolyte. The manipulation of bonds in water molecules to increase the tendency of the water to split is a ground-breaking development, as shown in this first example. © 2024 The Authors. Small published by Wiley-VCH GmbH.
Erscheinungsjahr
2024
Zeitschriftentitel
Small
Art.-Nr.
2310665
eISSN
1613-6829
Page URI
https://pub.uni-bielefeld.de/record/2987378
Zitieren
Bookholt T, Qin X, Lilli B, et al. Increased Readiness for Water Splitting: NiO-Induced Weakening of Bonds in Water Molecules as Possible Cause of Ultra-Low Oxygen Evolution Potential. Small . 2024: 2310665.
Bookholt, T., Qin, X., Lilli, B., Enke, D., Huck, M., Balkenhohl, D., Ruwe, K., et al. (2024). Increased Readiness for Water Splitting: NiO-Induced Weakening of Bonds in Water Molecules as Possible Cause of Ultra-Low Oxygen Evolution Potential. Small , 2310665. https://doi.org/10.1002/smll.202310665
Bookholt, Tom, Qin, Xian, Lilli, Bettina, Enke, Dirk, Huck, Marten, Balkenhohl, Danni, Ruwe, Klara, et al. 2024. “Increased Readiness for Water Splitting: NiO-Induced Weakening of Bonds in Water Molecules as Possible Cause of Ultra-Low Oxygen Evolution Potential”. Small : 2310665.
Bookholt, T., Qin, X., Lilli, B., Enke, D., Huck, M., Balkenhohl, D., Ruwe, K., Brune, J., Klare, J. P., Kupper, K., et al. (2024). Increased Readiness for Water Splitting: NiO-Induced Weakening of Bonds in Water Molecules as Possible Cause of Ultra-Low Oxygen Evolution Potential. Small :2310665.
Bookholt, T., et al., 2024. Increased Readiness for Water Splitting: NiO-Induced Weakening of Bonds in Water Molecules as Possible Cause of Ultra-Low Oxygen Evolution Potential. Small , : 2310665.
T. Bookholt, et al., “Increased Readiness for Water Splitting: NiO-Induced Weakening of Bonds in Water Molecules as Possible Cause of Ultra-Low Oxygen Evolution Potential”, Small , 2024, : 2310665.
Bookholt, T., Qin, X., Lilli, B., Enke, D., Huck, M., Balkenhohl, D., Ruwe, K., Brune, J., Klare, J.P., Kupper, K., Schuster, A., Bergjan, J., Steinhart, M., Gröger, H., Daum, D., Schafer, H.: Increased Readiness for Water Splitting: NiO-Induced Weakening of Bonds in Water Molecules as Possible Cause of Ultra-Low Oxygen Evolution Potential. Small . : 2310665 (2024).
Bookholt, Tom, Qin, Xian, Lilli, Bettina, Enke, Dirk, Huck, Marten, Balkenhohl, Danni, Ruwe, Klara, Brune, Julia, Klare, Johann P, Kupper, Karsten, Schuster, Anja, Bergjan, Jenrik, Steinhart, Martin, Gröger, Harald, Daum, Diemo, and Schafer, Helmut. “Increased Readiness for Water Splitting: NiO-Induced Weakening of Bonds in Water Molecules as Possible Cause of Ultra-Low Oxygen Evolution Potential”. Small (2024): 2310665.
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