Interfacial galvanic replacement strategy for Pd-doped NiFe MOF nanosheets with highly efficient dopamine detection.
Shujun WangDongyu WangMengqi LiShuangna WangShaowen XiangKai FengQing LiuPing WangYueyun LiFeng TangPublished in: Mikrochimica acta (2024)
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.
Keyphrases
- electron transfer
- metal organic framework
- highly efficient
- label free
- reduced graphene oxide
- gold nanoparticles
- quantum dots
- loop mediated isothermal amplification
- real time pcr
- molecularly imprinted
- ionic liquid
- solid phase extraction
- uric acid
- visible light
- high resolution
- signaling pathway
- metabolic syndrome
- cell proliferation
- sensitive detection
- molecular dynamics simulations
- high throughput
- immune response
- carbon nanotubes
- oxide nanoparticles
- toll like receptor
- pi k akt