Реферат: Metal-free boron carbonitride (BCN) has attracted considerable interest for photoelectrochemical water splitting applications. However, its utility is limited by inadequate charge carrier transport, serious charge recombination and suboptimal surface catalytic activity. Herein, we propose a novel boron carbon (BCx) tuning layer strategy to address these limitations. By employing an integrated one-stop approach, BCN nanowalls are vertically grown on BCx film surfaces via plasma-enhanced chemical vapor deposition (PECVD) for fabrication photoelectrodes. Experimental analyses and band structure studies confirm that the BCx tuning layer not only promotes the formation of vertically aligned BCN nanowall arrays, but also serves as an efficient electron transfer pathway for photogenerated electrons. This inhibits charge recombination and enhances charge separation, thereby making more holes available as active sites for photoelectrochemical reactions. Consequently, the BCN/BCx photoanode achieves a water oxidation photocurrent of 0.82 mA cm-2 at 1.23 V, a 4.6 times improvement over pristine BCN. Furthermore, the BCN/BCx photoanode demonstrates remarkable stability, maintaining a steady photocurrent under continuous illumination for 100 h. This innovative tuning layer strategy offers promising prospects for advanced applications in catalysis, sensors, transistors and beyond.

Библиографическая ссылка: Wu L. , Belaya S.V. , Li L. , Maksimovskiy E.A. , Kolodin A.N. , Asanov I.P. , Plekhanov A.G. , Korolkov I.V. , Zhang H. , Kosinova M.L. , An B.
Interfacial Engineering of Boron Carbonitride via Tuning Layers for Enhanced Solar Water Oxidation
Carbon. 2026. V.246. 120926 :1-10. DOI: 10.1016/j.carbon.2025.120926 OpenAlex

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Поступила в редакцию:	21 июл. 2025 г.
Принята к публикации:	12 сент. 2025 г.
Опубликована online:	10 окт. 2025 г.
Опубликована в печати:	5 янв. 2026 г.

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W4415062581

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