Investigation of rechargeable zinc-air battery performance using a bifunctional biomass-derived catalyst material for the air electrode

双功能 电池(电) 材料科学 电极 电解质 功率密度 催化作用 析氧 碳纤维 超级电容器 化学工程 氧气 电流密度 双功能催化剂 氧还原反应 克拉克电极 多孔性 纳米技术 化学 无机化学 储能 活性炭
作者
Silver Juvanen,Ave Sarapuu,Maike Käärik,Arvo Kikas,Jekaterina Kozlova,Alexey Treshchalov,Jaan Aruväli,Jaan Leis,Vambola Kisand,Kaupo Kukli,Kaido Tammeveski
出处
期刊:Journal of energy storage [Elsevier BV]
卷期号:148: 120293-120293 被引量:1
标识
DOI:10.1016/j.est.2025.120293
摘要

Active transition metal-containing nitrogen-doped bifunctional electrocatalysts for oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) were prepared using a biomass precursor of rapeseed press cake, an inexpensive byproduct of rapeseed oil production. The prepared catalysts were thoroughly characterized and the most active material 4Fe4NiNCR was used as an air electrode catalyst in rechargeable Zn-air batteries (ZABs). A high peak power density ( P max ) of 202 mW cm −2 was observed, which was comparable to commercial 50:25:25 PtRu/C catalyst performance ( P max = 205 mW cm −2 ). The rechargeable Zn-air battery was stable for 68 h (68 cycles) at a practically relevant areal cycling capacity of 12.5 mAh cm −2 and a current density of 25 mA cm −2 . This was a significantly improved performance compared to only 5 h (5 cycles) using the 50:25:25 PtRu/C catalyst. The best catalyst 4Fe4NiNCR was shown to be promising for practical usage in rechargeable ZABs. Additionally, various ZAB design parameters are considered and discussed in detail on the basis of measurements done with two different battery configurations. • Ni, Fe containing bifunctional catalysts for ORR prepared from rapeseed press cake • Porous carbon structure is formed containing M-N x and M@N-C ORR-active sites. • 4Fe4NiNCR shows a Δ E of 0.79 V and a high P max of 202 mW cm −2 in a zinc-air battery. • Stable performance for 146 h (876 cycles) at 5 mA cm −2 (0.42 mAh cm −2 ) is observed. • Stable performance for 68 h (68 cycles) at 25 mA cm −2 (12.5 mAh cm −2 ) is observed.
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