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Imaging the Electrocatalytic Activity of Single Nanoparticles

Imaging the Electrocatalytic Activity of Single Nanoparticles. Daniel C. Ralph, Cornell University, ECCS 0335765.

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Imaging the Electrocatalytic Activity of Single Nanoparticles

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  1. Imaging the Electrocatalytic Activity of Single Nanoparticles Daniel C. Ralph, Cornell University, ECCS 0335765 The electrocatalytic properties of nanoparticles depend on their size, shape and composition. These properties are typically probed by measuring the total electrocatalytic reaction current of a large number of nanoparticles, but this approach is time-consuming and can only measure the average catalytic activity of the nanoparticles under study. However, the identification of new catalysts requires the ability to rapidly measure the properties of nanoparticles synthesized under various conditions and, ideally, to measure the electrocatalytic activity of individual nanoparticles. We demonstrate that a plasmonic-based electrochemical current imaging technique can simultaneously image and quantify the electrocatalytic reactions of an array of 1.6x105 platinum nanoparticles printed on an electrode surface, which could facilitate high-throughput screening of the catalytic activities of nanoparticles. We also show that the approach can be used to image the electrocatalytic reaction current and measure the cyclic voltammograms of single nanoparticles. (Published in Nature Nanotechnology, DOI: 10.1038/NNANO.2012.134) Statistical analysis of single platinum nanoparticle electrocatalysis. a), SPR image of an 80 nm platinum nanoparticle microarray. b, CV plots of three platinum nanoparticles (locations marked in a). c, Histogram of the electrocatalytic current at a potential of -0.55V for 30 single platinum nanoparticles, showing the large variability. d,e, SPR and AFM images near the edges of an 80nm platinum nanoparticle spot. Scalebars (a,d,e), 15mm. f, TEM image of 80nm platinum nanoparticles. Scalebar, 100nm. Xiaonan Shan, N.J. Tao et.al., Biodesign Institute, ASU Work performed at ASU NanoFab

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