Mesoporous PtIr alloy single-particle: A novel SECM-tip for in situ monitoring NO of single-cell

As a vital factor in cell metabolism, nitric oxide (NO) is associated with nitrosative stress and subsequent inflammations and diseases. In situ, real-time NO monitoring is challenging due to its relative trace concentration and fast diffusion in cell. Scanning electrochemical microscopy (SECM) is suited uniquely for single-cell analysis, and its electrochemical response to targets can be further enhanced by improving the interfacial properties of its tip. Here, an ultramicroelectrodes (UMEs) modification strategy based on bimetallic single-particle was proposed for the first time. This mesoporous platinum/iridium alloy single-particle (mPtIr SP) interface using micelle-assisted electrodeposition was characterized by scanning electron microscopy (SEM) and X-ray photoelectron spectroscopy (XPS). And the nucleation kinetic progress which can be defined as "oil-in-water-like" electrodeposition was discussed in detail. The high sensitivity (203.86 μA/μM·cm²) and good selectivity for NO detection benefits from the high catalysis of the PtIr alloy and the high mass transfer properties of the porous interface. In particular, this novel UME can real-time monitor NO release from a single MCF-7 cell stimulated by perfluorooctanoic acid (PFOA), providing new ideas for contaminant toxicity assessment, health diagnostics, and disease treatment.