Methane Dehydrogenation and Coking Resistance on Ni(111) Surfaces of SOFC Anodes with Different Cu Doping Ratios under a Consistent DFT Framework

Xin Ding; Ding Xin; Jie Yu; Jie Yu Jie; Feng Yu Chen; Chen Feng Yu; Shu Qiu Hu; Hu Shu Qiu; Wei Tian Yang; Yang Wei Tian; Cui Qiao; Qiao Cui; Xiu Min Chen; Chen Xiu Min; Wen Hui Ma; Hui Ma Wen

doi:10.31857/S0453881123040159

Methane Dehydrogenation and Coking Resistance on Ni(111) Surfaces of SOFC Anodes with Different Cu Doping Ratios under a Consistent DFT Framework

Авторлар: Ding X.¹^,2, Yu J.¹^,2, Chen F.Y.¹^,2, Hu S.Q.¹^,2, Yang W.T.¹^,2, Qiao C.¹^,2, Chen X.M.¹^,2, Hui Ma W.¹^,2^,3
Мекемелер:
1. Faculty of Metallurgical and Energy Engineering, Kunming University of Science and Technology
2. The Key Laboratory of Vacuum Metallurgy of Non-Ferrous Metals of Yunnan Province
3. School of Science and Technology, Pu’er University
Шығарылым: Том 64, № 4 (2023)
Беттер: 394-395
Бөлім: ARTICLES
URL: https://cardiosomatics.ru/0453-8811/article/view/660287
DOI: https://doi.org/10.31857/S0453881123040159
EDN: https://elibrary.ru/RSLVSO
ID: 660287

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Carbon deposition on nickel-based anodes is a key problem for solid oxide fuel cells (SOFCs) using hydrocarbon fuels. One of the solutions is doping with other elements. In this work, DFT calculations were used to systematically study the processes of continuous CH₄ dehydrogenation, carbon formation, and carbon elimination on Ni(111) surfaces doped with different amounts of Cu. The Cu doping concentrations on the Ni surface are set as 0, 1/9, 4/9, 5/9, 8/9, and 1 ml, namely Ni(111), NiCu₁, NiCu₄, NiCu₅, NiCu₈, and Cu₉. The adsorption energies and adsorption sites of the important substances were obtained by calculation. In addition, the kinetics and thermodynamics of the main reactions and potential carbon removal pathways are discussed. Prior studies have shown that the introduction of Cu weakens the interaction between the Ni-based surface and the absorber, thereby enhancing the activity of various species on the surface of Ni-based catalysts. Second, the methane cracking path on the Ni-based surface is CH₄ → CH₃ → CH₂ → CH, and the paths on the other five surfaces are the same. We found that the addition of Cu can weaken the adsorption of C, inhibit the activity of CH₄ dehydrogenation, and promote the binding of C to the intermediate medium on the Ni-based surface, thus improving the ability of carbon deposition resistance. Finally, based on our DFT calculations, several potential carbon removal pathways are discussed in detail, and it is believed that the problem of carbon removal on SOFC anodes should focus on the oxidation of CH while preventing its direct cracking.

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DFT, Cu-doped Ni, Anti-coking, CH₄ dehydrogenation, SOFC

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Том 66, № 2 (2025)

Methane Dehydrogenation and Coking Resistance on Ni(111) Surfaces of SOFC Anodes with Different Cu Doping Ratios under a Consistent DFT Framework

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Xin Ding

Jie Yu

Feng Chen

Shu Hu

Wei Yang

Cui Qiao

Xiu Chen

Wen Hui Ma

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