界面电置换策略制备具有高效多巴胺检测性能的 Pd 掺杂 NiFe MOF 纳米片。

Interfacial galvanic replacement strategy for Pd-doped NiFe MOF nanosheets with highly efficient dopamine detection.

机构信息

School of Chemistry and Chemical Engineering, Shandong University of Technology, Zibo, 255049, People's Republic of China.

Stomatological Hospital, School of Stomatology, Southern Medical University, Guangzhou, 510280, People's Republic of China.

出版信息

Mikrochim Acta. 2024 Apr 22;191(5):280. doi: 10.1007/s00604-024-06359-4.

DOI:10.1007/s00604-024-06359-4

PMID:38649540

Abstract

An interfacial galvanic replacement strategy to controllable synthesize palladium nanoparticles (Pd NPs)-modified NiFe MOF nanocomposite on nickel foam, which served as an efficient sensing platform for quantitative determination of dopamine (DA). Pd NPs grown in situ on the nanosheets of NiFe MOF via self-driven galvanic replacement reaction (GRR) and well uniform distribution was achieved. This method effectively reduced the aggregation of metallic nanoparticles and significantly promoted the electron transfer rate during the electrochemical process, leading to improved electrocatalytic activity for DA oxidation. Remarkably, the precisely constructed biosensor achieved a low detection limit (LOD) of 0.068 µM and recovery of 94.1% (RSD 6.7%, N = 3) for simulated real sample detection and also exhibited superior selectivity and stability. The results confirmed that the as-fabricated Pd-NiFe/NF composite electrode could realize the quantitative determination of DA and showed promising prospects in real sample biosensing.

摘要

一种界面电置换策略，用于可控合成钯纳米粒子（Pd NPs）修饰的镍铁 MOF 纳米复合材料在泡沫镍上，作为一种用于定量测定多巴胺（DA）的有效传感平台。Pd NPs 通过自驱动电置换反应（GRR）原位生长在 NiFe MOF 的纳米片上，实现了均匀的分布。该方法有效地减少了金属纳米粒子的聚集，并在电化学过程中显著促进了电子转移速率，从而提高了对 DA 氧化的电催化活性。值得注意的是，精确构建的生物传感器实现了对模拟实际样品检测的低检测限（LOD）为 0.068 µM 和 94.1%的回收率（RSD 为 6.7%，N = 3），并且表现出优异的选择性和稳定性。结果证实，所制备的 Pd-NiFe/NF 复合电极可实现 DA 的定量测定，并在实际样品生物传感中显示出广阔的前景。

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界面电置换策略制备具有高效多巴胺检测性能的 Pd 掺杂 NiFe MOF 纳米片。

Interfacial galvanic replacement strategy for Pd-doped NiFe MOF nanosheets with highly efficient dopamine detection.

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