1. Plasma treated carbon paper electrode greatly improves the performance of iron-hydrogen battery for low-cost energy storage
- Author
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Fandi Ning, Chuang Bai, Xiaochun Zhou, Huihui Wang, Yali Li, Min Shen, and Saifei Pan
- Subjects
Battery (electricity) ,Materials science ,Hydrogen ,chemistry.chemical_element ,Sulfuric acid ,General Chemistry ,Energy storage ,Cathode ,law.invention ,Anode ,chemistry.chemical_compound ,Chemical engineering ,chemistry ,law ,Electrode ,Power density - Abstract
A novel iron-hydrogen battery system, whose Fe3+/Fe2+ cathode circumvents slowly dynamic oxygen reduction reaction and anode is fed with clean and cordial hydrogen, is systematically investigated. The maximum discharge power density of the iron-hydrogen battery reaches to 96.0 mW/cm2 under the room temperature. The capacity reaches to 17.2 Ah/L and the coulombic and energy efficiency are achieved to 99% and 86%, respectively, during the galvanostatic charge-discharge test. Moreover, stable cycling test is observed for more than 240 h and 100 cycles with the iron sulfate in the sulfuric acid solutions. It is found that air plasma treatment onto the cathode carbon paper can generate the oxygen-containing groups and increase the hydrophilic pores proportion to ca. 40%, enlarging nearly 6-fold effective diffusion coefficient and improving the mass transfer in the battery performance. The simple iron-hydrogen energy storage battery design offers us a new strategy for the large-scale energy storage and hydrogen involved economy.
- Published
- 2022
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