评论-多巴胺催化电化学生物传感器：设计、性能和医疗应用

ECS Sensors Plus Pub Date : 2024-04-01 DOI:10.1149/2754-2726/ad3950

Emily DeVoe, Silvana Andreescu

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摘要

研究了镍和 YSZ 之间的 Al2TiO5（ALT）夹层对提高镍-YSZ 固体氧化物燃料电池热稳定性的影响。原子层沉积 (ALD) 技术可精确控制 ALT 中间膜的结构和厚度。研究结果表明，通过 ALD 沉积的 2 nm 厚的 ALT 中间层不会对电池的欧姆电阻产生不利影响，并能有效防止高温热处理过程中的镍烧结和活性面积损失。厚度大于 2 纳米的 ALT 层虽然提高了镍的稳定性，但会阻碍电极中的氧离子传输，显著增加电池的欧姆电阻，导致性能下降。

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Review—Catalytic Electrochemical Biosensors for Dopamine: Design, Performance, and Healthcare Applications

The effect of an Al2TiO5 (ALT) interlayer between Ni and YSZ on enhancing the thermal stability of Ni-YSZ solid oxide fuel cell was examined. Atomic layer deposition (ALD) was used to provide precise control of the structure and thickness of the ALT interlayer. The study’s findings demonstrate that a 2 nm thick ALT interlayer deposited by ALD does not adversely affect the cell’s ohmic resistance and effectively prevents Ni sintering and the loss of active area during high-temperature heat treatments. ALT layers thicker than 2 nm, although they enhanced Ni stability, were found to impede oxygen ion transport in the electrode and significantly increase the ohmic resistance of the cell, leading to a decline in performance.

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ECS Sensors Plus

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