Abstract:
The development of efficient and durable nanomaterials is crucial for advancing green hydrogen technologies. This presentation will highlight recent progress in designing nanostructured transition-metal-based materials for electrocatalytic water splitting, with emphasis on interface engineering, defect modulation, and electronic structure optimization.
The role of nanoscale architecture in improving catalytic activity, charge transfer, and long-term stability will be discussed, along with approaches for developing scalable materials suitable for practical hydrogen production systems. Furthermore, advanced characterization strategies, including in-situ/operando techniques, will be highlighted to understand dynamic structural evolution of catalysts under working conditions.
This work demonstrates how rational nanomaterial engineering combined with real-time insights can accelerate the development of next-generation materials for sustainable hydrogen energy applications.
Biography:
To be updated shortly..
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