Vinicius Sales , Carlo Paternoster , Diego Mantovani , Georgios Kolliopoulos
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引用次数: 0
Abstract
Deep eutectic solvents (DESs) are green anhydrous solvents that have recently been proposed in sustainable non-aqueous metal electrodeposition processes. The use of DESs over aqueous solutions allows metal electrodeposition without significant side reactions, such as the evolution of hydrogen gas, which is responsible for embrittlement phenomena. In the current work, the electrolytic deposition of Fe-Mn alloys, which present good application in temporary biomedical devices, using DESs was assessed. Three DESs were studied: (a) choline chloride and ethylene glycol (ChCl/EG), (b) choline chloride and glycerol (ChCl/Gly), and (c) choline chloride and urea (ChCl/Urea). The physicochemical properties (viscosity and conductivity) of the three DESs of interest, with and without the presence of dissolved Fe and Mn salts, were thoroughly studied. Cyclic voltammetry analyses showed that the reduction potential of both metals was within the potential window for the three DESs studied, which allowed the successful electrodeposition of Fe-Mn alloys. The deposit obtained from the ChCl/Urea DES presented the highest amount of Mn (49.71 at%). The latter, as well as the fact that the ChCl/Urea based electrolyte showed good stability at T = 80 °C after four electrodeposition cycles, are promising indicators of the potential success of the use of non-aqueous electrodeposition of Fe-Mn alloys using DESs.
深共晶溶剂(DES)是一种绿色无水溶剂,最近被提出用于可持续的非水性金属电沉积工艺。与水溶液相比,使用 DESs 可以使金属在电沉积过程中不产生明显的副反应,如氢气的进化,氢气进化会导致脆化现象。在目前的工作中,使用 DESs 评估了在临时生物医学设备中具有良好应用前景的铁锰合金的电解沉积。研究了三种 DES:(a) 氯化胆碱和乙二醇(ChCl/EG),(b) 氯化胆碱和甘油(ChCl/Gly),以及 (c) 氯化胆碱和尿素(ChCl/Urea)。我们深入研究了三种相关 DES 的物理化学特性(粘度和电导率),包括溶解的铁盐和锰盐以及不溶解的铁盐和锰盐。循环伏安分析表明,两种金属的还原电位都在所研究的三种 DES 的电位窗口内,因此可以成功电沉积铁锰合金。从 ChCl/Urea DES 中获得的沉积物含锰量最高(49.71%)。后者以及基于 ChCl/Urea 的电解液在经过四个电沉积周期后,在 T = 80 °C 的温度下显示出良好的稳定性这一事实,都表明使用 DESs 进行铁-锰合金的非水性电沉积可能会取得成功。
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