Green laser ablation-based synthesis of functional nanomaterials for generation, storage, and detection of hydrogen A. V. Shabalina, V. A. Svetlichnyi, S. A. Kulinich
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ArticleContent type: Текст Media type: электронный Subject(s): лазерная абляция | наночастицы | генерация водорода | хранение водородаGenre/Form: статьи в журналах Online resources: Click here to access online
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Current opinion in green and sustainable chemistry Vol. 33. P. 100566 (1-9)Abstract: Hydrogen is an ideal energy source from the ecological point of view. The development of efficient technologies for its production with minimum carbon emission is an urgent task for the near future. The solution to this problem is possible via design and preparation of novel revolutionary materials for various processes of water splitting. The unique high-energy laser ablation method is one of the promising approaches to prepare such materials. This review summarizes recent advances in the use of laser ablation in liquid phase as a technique for the synthesis of catalysts for hydrogen production. In addition, we also cover similar nanomaterials generated in gas environment and consider laser-produced nanomaterials for hydrogen storage and detection.
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Hydrogen is an ideal energy source from the ecological point of view. The development of efficient technologies for its production with minimum carbon emission is an urgent task for the near future. The solution to this problem is possible via design and preparation of novel revolutionary materials for various processes of water splitting. The unique high-energy laser ablation method is one of the promising approaches to prepare such materials. This review summarizes recent advances in the use of laser ablation in liquid phase as a technique for the synthesis of catalysts for hydrogen production. In addition, we also cover similar nanomaterials generated in gas environment and consider laser-produced nanomaterials for hydrogen storage and detection.
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