Nanosize Controllable Two‐Dimensional (Cu–S)n Metal–Organic Framework Hybrid With Reduced Graphene Oxide by In Situ Microwave and Hydrothermal Synthesis for Electrochemical Neurotransmitter Detection.

ABSTRACT We present a groundbreaking technique for controllably synthesizing nanosized semiconductive two‐dimensional (2D) (Cu–S)n metal–organic framework (MOF)/graphene nanocomposites for electrochemical sensing of neurotransmitter 2‐phenethylamine (PEA). The (Cu–S)n MOF size is controlled by graphene oxide proportions, enhancing electrocatalytic activity. The modified electrode exhibits a surface area increase from 0.0639 to 0.1906 cm2 and impressive limit of detection (0.0156 and 0.004 μM) within linear ranges of 15–200 μM and 1–10 μM, offering exceptional selectivity, reproducibility, and repeatability for biosensing. [ABSTRACT FROM AUTHOR]