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The Effect of Temperature on Electrochemical Codeposition of Mg-Ni Hydrogen Storage Alloys from Molten Salt System

机译：温度对熔盐体系Mg-Ni储氢合金电化学共沉积的影响

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A Mg-Ni hydrogen storage alloy was produced as a film by molten salts electrolysis and diffusion process. Mg and Ni was co-deposition on a nickel substrate from 20 wt% MgCl_2 + 2 wt% NiCl_2 and balans NaCl + KC1 mixture. The electrodeposition was conducted at 700-750 °C and constant current density of 0.5 A cm~(-2) for 60 min. The phase composition and microstructure of Mg-Ni alloy were detected by X-ray diffraction (XRD) and scanning electron microscope (SEM). The electrode performance in 6 M KOH solution were characterized by cyclic charge-discharge experiment. The best initial discharge capacity (375 mAhg~(-1)) and acceptable capacity retaining rate (70%) were obtained at the 750 °C alloy.

机译：通过熔融盐电解和扩散工艺将Mg-Ni储氢合金制成膜。 Mg和Ni由20 wt％的MgCl_2 + 2 wt％的NiCl_2和Balans NaCl + KCl混合物共沉积在镍基底上。电沉积在700-750°C和0.5 A cm〜（-2）的恒定电流密度下进行60分钟。用X射线衍射（XRD）和扫描电子显微镜（SEM）检测Mg-Ni合金的相组成和显微组织。通过循环充放电实验对电极在6 M KOH溶液中的性能进行了表征。在750°C的合金中获得了最佳的初始放电容量（375 mAhg〜（-1））和可接受的容量保持率（70％）。

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《TMS annual meeting exhibition》|2017年|657-663|共7页
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作者
Goekcce Hapci Agaoglu; Gokhan Orhan;
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Mg-Ni alloys; Hydrogen storage; Molten salt electrolysis;

机译：镁镍合金;储氢;熔融盐电解;

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The Effect of Temperature on Electrochemical Codeposition of Mg-Ni Hydrogen Storage Alloys from Molten Salt System

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