Unconventional direct synthesis of Ni3N/Ni with
N-vacancies for efficient and stable hydrogen
evolution

Zhang, D; Li, H; Riaz, A; Sharma, A; Liang, W; Wang, Helena; Chen, H; Vora, K; Yan, D; Su, Z; Tricoli, A; Zhao, C; Beck, FJ; Reuter, K; Catchpole, K; Karuturi, S

Unconventional direct synthesis of Ni3N/Ni with N-vacancies for efficient and stable hydrogen evolution

Version 2 2024-06-13, 17:51

Version 1 2022-09-29, 23:56

journal contribution

posted on 2024-06-13, 17:51 authored by D Zhang, H Li, A Riaz, A Sharma, W Liang, Helena Wang, H Chen, K Vora, D Yan, Z Su, A Tricoli, C Zhao, FJ Beck, K Reuter, K Catchpole, S Karuturi

Direct synthesis of Ni3N/Ni catalyst enriched with N-vacancies using one-step reactive magnetron sputtering with enhanced performance for the hydrogen evolution reaction in photoelectrochemical cells and electrolysers.

History

Journal

Energy and Environmental Science

Volume

15

Pagination

185-195

Location

Berlin, Germany

Publisher DOI

https://doi.org/10.1039/d1ee02013g

ISSN

1754-5692

eISSN

1754-5706

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Issue

1

Publisher

ROYAL SOC CHEMISTRY

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Keywords

CATALYSTS Chemistry Chemistry, Multidisciplinary ELECTROCATALYSTS Energy & Fuels Engineering Engineering, Chemical Environmental Sciences Environmental Sciences & Ecology Life Sciences & Biomedicine NANOSHEETS NICKEL-NITRIDE NITROGEN OXYGEN EVOLUTION Physical Sciences Science & Technology Technology

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