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A nanofluidic device for parallel single nanoparticle catalysis in solution.

Nature communications (2019-09-29)
Sune Levin, Joachim Fritzsche, Sara Nilsson, August Runemark, Bhausaheb Dhokale, Henrik Ström, Henrik Sundén, Christoph Langhammer, Fredrik Westerlund
ABSTRACT

Studying single catalyst nanoparticles, during reaction, eliminates averaging effects that are an inherent limitation of ensemble experiments. It enables establishing structure-function correlations beyond averaged properties by including particle-specific descriptors such as defects, chemical heterogeneity and microstructure. Driven by these prospects, several single particle catalysis concepts have been implemented. However, they all have limitations such as low throughput, or that they require very low reactant concentrations and/or reaction rates. In response, we present a nanofluidic device for highly parallelized single nanoparticle catalysis in solution, based on fluorescence microscopy. Our device enables parallel scrutiny of tens of single nanoparticles, each isolated inside its own nanofluidic channel, and at tunable reaction conditions, ranging from the fully mass transport limited regime to the surface reaction limited regime. In a wider perspective, our concept provides a versatile platform for highly parallelized single particle catalysis in solution and constitutes a promising application area for nanofluidics.

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Sigma-Aldrich
Boroidruro di sodio, powder, ≥98.0%
Sigma-Aldrich
Fluorescein sodium salt, BioReagent, suitable for fluorescence
Sigma-Aldrich
Gold nanoparticles, 100 nm diameter, OD 1, stabilized suspension in citrate buffer