Design strategies for high entropy materials in water electrolysis: Enhancing activity, stability, and reaction kinetics (IMAGE)

Tsinghua University Press

Design strategies for high entropy materials in water electrolysis: Enhancing activity, stability, and reaction kinetics

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This review systematically explores design strategies for high-entropy materials (HEMs) as advanced electrocatalysts for water splitting. It highlights how composition regulation, defect and strain engineering, morphological control, and support interactions enhance catalytic activity and stability for both hydrogen and oxygen evolution reactions. The integration of computational methods for element selection and mechanistic insight is emphasized. The work provides a holistic framework for developing efficient, durable HEMs, addressing current challenges and future directions for sustainable energy applications.

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Journal of Advanced Ceramics, Tsinghua University Press

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