Dynamic stability of active sites in hydr(oxy)oxides for the oxygen evolution reaction
Само за регистроване кориснике
2020
Аутори
Chung, Dong YoungLopes, Pietro Papa
Farinazzo Bergamo Dias Martins, Pedro
He, Haiying
Kawaguchi, Tomoya
Zapol, Peter
You, Hoydoo
Tripković, Dušan
Strmcnik, Dusan
Zhu, Yisi
Seifert, Soenke
Lee, Sungsik
Stamenković, Vojislav
Marković, Nenad M.
Чланак у часопису (Објављена верзија)
,
Springer Nature
Метаподаци
Приказ свих података о документуАпстракт
The poor activity and stability of electrode materials for the oxygen evolution reaction are the main bottlenecks in the water-splitting reaction for H2 production. Here, by studying the activity–stability trends for the oxygen evolution reaction on conductive M1OxHy, Fe–M1OxHy and Fe–M1M2OxHy hydr(oxy)oxide clusters (M1 = Ni, Co, Fe; M2 = Mn, Co, Cu), we show that balancing the rates of Fe dissolution and redeposition over a MOxHy host establishes dynamically stable Fe active sites. Together with tuning the Fe content of the electrolyte, the strong interaction of Fe with the MOxHy host is the key to controlling the average number of Fe active sites present at the solid/liquid interface. We suggest that the Fe–M adsorption energy can therefore serve as a reaction descriptor that unifies oxygen evolution reaction catalysis on 3d transition-metal hydr(oxy)oxides in alkaline media. Thus, the introduction of dynamically stable active sites extends the design rules for creating active and s...table interfaces.
Кључне речи:
Electrocatalysis / Hydrogen fuel / Solar fuelsИзвор:
Nature Energy, 2020, 5, 3, 222-230Издавач:
- Springer Science and Business Media LLC
Финансирање / пројекти:
- US Department of Energy, Office of Science, Office of Basic Energy Sciences, under contract no. DE-AC02-06CH11357
Напомена:
- The peer-reviewed version: https://cer.ihtm.bg.ac.rs/handle/123456789/3700
DOI: 10.1038/s41560-020-0576-y
ISSN: 2058-7546
WoS: 000520704000014
Scopus: 2-s2.0-85082113724
Институција/група
IHTMTY - JOUR AU - Chung, Dong Young AU - Lopes, Pietro Papa AU - Farinazzo Bergamo Dias Martins, Pedro AU - He, Haiying AU - Kawaguchi, Tomoya AU - Zapol, Peter AU - You, Hoydoo AU - Tripković, Dušan AU - Strmcnik, Dusan AU - Zhu, Yisi AU - Seifert, Soenke AU - Lee, Sungsik AU - Stamenković, Vojislav AU - Marković, Nenad M. PY - 2020 UR - https://cer.ihtm.bg.ac.rs/handle/123456789/3485 AB - The poor activity and stability of electrode materials for the oxygen evolution reaction are the main bottlenecks in the water-splitting reaction for H2 production. Here, by studying the activity–stability trends for the oxygen evolution reaction on conductive M1OxHy, Fe–M1OxHy and Fe–M1M2OxHy hydr(oxy)oxide clusters (M1 = Ni, Co, Fe; M2 = Mn, Co, Cu), we show that balancing the rates of Fe dissolution and redeposition over a MOxHy host establishes dynamically stable Fe active sites. Together with tuning the Fe content of the electrolyte, the strong interaction of Fe with the MOxHy host is the key to controlling the average number of Fe active sites present at the solid/liquid interface. We suggest that the Fe–M adsorption energy can therefore serve as a reaction descriptor that unifies oxygen evolution reaction catalysis on 3d transition-metal hydr(oxy)oxides in alkaline media. Thus, the introduction of dynamically stable active sites extends the design rules for creating active and stable interfaces. PB - Springer Science and Business Media LLC T2 - Nature Energy T1 - Dynamic stability of active sites in hydr(oxy)oxides for the oxygen evolution reaction VL - 5 IS - 3 SP - 222 EP - 230 DO - 10.1038/s41560-020-0576-y ER -
@article{ author = "Chung, Dong Young and Lopes, Pietro Papa and Farinazzo Bergamo Dias Martins, Pedro and He, Haiying and Kawaguchi, Tomoya and Zapol, Peter and You, Hoydoo and Tripković, Dušan and Strmcnik, Dusan and Zhu, Yisi and Seifert, Soenke and Lee, Sungsik and Stamenković, Vojislav and Marković, Nenad M.", year = "2020", abstract = "The poor activity and stability of electrode materials for the oxygen evolution reaction are the main bottlenecks in the water-splitting reaction for H2 production. Here, by studying the activity–stability trends for the oxygen evolution reaction on conductive M1OxHy, Fe–M1OxHy and Fe–M1M2OxHy hydr(oxy)oxide clusters (M1 = Ni, Co, Fe; M2 = Mn, Co, Cu), we show that balancing the rates of Fe dissolution and redeposition over a MOxHy host establishes dynamically stable Fe active sites. Together with tuning the Fe content of the electrolyte, the strong interaction of Fe with the MOxHy host is the key to controlling the average number of Fe active sites present at the solid/liquid interface. We suggest that the Fe–M adsorption energy can therefore serve as a reaction descriptor that unifies oxygen evolution reaction catalysis on 3d transition-metal hydr(oxy)oxides in alkaline media. Thus, the introduction of dynamically stable active sites extends the design rules for creating active and stable interfaces.", publisher = "Springer Science and Business Media LLC", journal = "Nature Energy", title = "Dynamic stability of active sites in hydr(oxy)oxides for the oxygen evolution reaction", volume = "5", number = "3", pages = "222-230", doi = "10.1038/s41560-020-0576-y" }
Chung, D. Y., Lopes, P. P., Farinazzo Bergamo Dias Martins, P., He, H., Kawaguchi, T., Zapol, P., You, H., Tripković, D., Strmcnik, D., Zhu, Y., Seifert, S., Lee, S., Stamenković, V.,& Marković, N. M.. (2020). Dynamic stability of active sites in hydr(oxy)oxides for the oxygen evolution reaction. in Nature Energy Springer Science and Business Media LLC., 5(3), 222-230. https://doi.org/10.1038/s41560-020-0576-y
Chung DY, Lopes PP, Farinazzo Bergamo Dias Martins P, He H, Kawaguchi T, Zapol P, You H, Tripković D, Strmcnik D, Zhu Y, Seifert S, Lee S, Stamenković V, Marković NM. Dynamic stability of active sites in hydr(oxy)oxides for the oxygen evolution reaction. in Nature Energy. 2020;5(3):222-230. doi:10.1038/s41560-020-0576-y .
Chung, Dong Young, Lopes, Pietro Papa, Farinazzo Bergamo Dias Martins, Pedro, He, Haiying, Kawaguchi, Tomoya, Zapol, Peter, You, Hoydoo, Tripković, Dušan, Strmcnik, Dusan, Zhu, Yisi, Seifert, Soenke, Lee, Sungsik, Stamenković, Vojislav, Marković, Nenad M., "Dynamic stability of active sites in hydr(oxy)oxides for the oxygen evolution reaction" in Nature Energy, 5, no. 3 (2020):222-230, https://doi.org/10.1038/s41560-020-0576-y . .