Electrochemical characterization of degradation of oxygen evolution anode for seawater electrolysis
Author:
Publisher
Elsevier BV
Subject
Electrochemistry,General Chemical Engineering
Reference19 articles.
1. K. Hashimoto, Mater. Sci. Eng. A179/A180 (1994) 27-30.
2. Corrosion Prevention for the Use of Renewable Energy
3. K. Hashimoto, Z. Kato, N. Kumagai and K. Izumiya, J. Physics Conference Series 144 (2009) 012009, pp.1-6.
4. The Use of Renewable Energy in the Form of Methane Via Electrolytic Hydrogen Generation / Zastosowanie Odnawialnej Energii W Formie Metanu Na Drodze Elektrolitycznej Produkcji Wodoru
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