Label-free Imaging of Catalytic H2O2 Decomposition on Single Colloidal Pt Nanoparticles using Nanofluidic Scattering Microscopy

Abstract: Single particle catalysis aims at determining factors that dictate nanoparticle activity and selectivity. Existing methods often use fluorescent model reactions at low reactant concentrations, operate at low pressures, or rely on plasmonic enhancement effects. Hence, methods to measure single nanoparticle activity at technically relevant conditions, and without fluorescence or other enhancement mechanisms, are still lacking. Here, we introduce nanofluidic scattering microscopy to fill this gap. By detecting minuscule refractive index changes in a liquid flushed through a nanochannel, we demonstrate that local H2O2 concentration changes in water can be accurately measured. Applying this principle, we analyze the H2O2 concentration profiles adjacent to single colloidal Pt nanoparticles during catalytic H2O2 decomposition into O2 and H2O and derive the particles individual turnover frequencies from the growth rate of O2 gas bubbles formed in their respective nanochannel during reaction.