1. Phase structure and electrochemical properties of A5B19 La0.8-xPrxMg0.2Ni3.8 (x = 0–0.3) hydrogen storage alloy anode material.
- Author
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Ren, Zhaozhe, Xu, Jianyi, Mi, He, Hu, Feng, Zhang, Guofang, Zhao, Xin, and Ke, Dandan
- Subjects
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HYDROGEN storage , *SCANNING electron microscopes , *ELECTRONIC probes , *STRUCTURAL stability , *CORROSION in alloys , *ALLOYS - Abstract
The La 0.8- x Pr x Mg 0.2 Ni 3.8 (x = 0, 0.05, 0.1, 0.2, 0.3) alloy were synthesized useing the induction melting method. X-ray diffraction, scanning electron microscope, electron probe micro analyzer, and electrochemical tests were used to analyze the structure and electrochemical performance of the La 0.8- x Pr x Mg 0.2 Ni 3.8 (x = 0–0.3) alloy. It was studied how the Pr element affected the electrochemical characteristics and microstructure of the A 5 B 19 La-Mg-Ni based hydrogen storage alloy. The results show that the alloy consists of the CaCu 5 -LaNi 5 phase, 2 H-Pr 5 Co 19 phase, and 3R-Ce 5 Co 19 phase. The abundance of the A 5 B 19 phase increase with the increase of Pr content, while the abundance of the LaNi 5 phase decrease, and the addition of Pr promotes the formation of the 2 H-Pr 5 Co 19 phase. According to the results of the electrochemical test, every sample has good activation qualities, and the activation can be completed in 3–4 times. The activation properties are not significantly altered by the addition of Pr. The maximum discharge capacity increases at first, then decreases, reaching the highest 371.15 mAh g−1 at x = 0.2. The cyclic stability gradually improves with increasing content of Pr, and the maximum capacity retention rate reaches 85.80 % after 100 cycles. The primary factor influencing the alloy's high rate discharge ability is the exchange current density. With the increase of the exchange current density, the high rate discharge performance is gradually enhanced. • The La-Mg-Ni based hydrogen storage alloy A 5 B 19 has better performance than AB 3 and A 2 B 7. • The hydrogen storage alloy was partially substituted by Pr element with higher electronegativity. • The addition of Pr significantly improves the phase structure stability and cycle stability of the alloy. • The corrosion and oxidation of the alloy electrode during the cycle are improved. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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