Nickel-coated 3D-printed titanium electrodes for electrochemical flow reactors

L. F. Arenas, B. Miranda-Alcántara, N. Kaishubayeva, A. Abahussain, F. Rivera, C. Ponce de León, F. Walsh
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引用次数: 1

Abstract

ABSTRACT Electrocatalyst-coated metallic electrodes for electrochemical flow reactors have many applications in electrosynthesis, environmental remediation and energy conversion. This work presents novel nickel-coated titanium-alloy electrodes produced by means of direct metal laser sintering and constant current electrodeposition in an additive-free Wood’s nickel strike then a Watts nickel bath. Several 3D porous architectures were created in Ti-6Al-4 V alloy and coated, their digital design being the subject of previous work. Nickel coatings were macroscopically uniform and adherent with a thickness up to 5.8 µm, depending on the surface area of the electrodes. The morphology of nickel was cauliflower-like, with crystallisation growth occurring as spherical grains, as typically found for deposits from pH buffered Watts baths. Some degree of coating porosity was observed at electrodes of large surface area, indicating the need for longer deposition times. The results open the path for further optimisation of electrodeposition parameters and the development of bath additives to tailor deposit properties.
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用于电化学流动反应器的镍涂层3d打印钛电极
电化学流动反应器用电催化剂包覆金属电极在电合成、环境修复和能量转换等方面有着广泛的应用。本文介绍了采用直接金属激光烧结和恒流电沉积的方法,在无添加剂的木材镍击和瓦茨镍浴中制备新型镍包覆钛合金电极。在ti - 6al - 4v合金中创建了几个3D多孔结构并进行了涂层,其数字设计是之前工作的主题。根据电极的表面积不同,镍涂层在宏观上是均匀的,其粘附厚度可达5.8µm。镍的形态呈花椰菜状,结晶生长为球形颗粒,这是pH缓冲瓦茨浴沉积的典型特征。在大表面积的电极上观察到一定程度的涂层孔隙,表明需要更长的沉积时间。该结果为进一步优化电沉积参数和开发镀液添加剂以定制沉积性能开辟了道路。
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