A New Catalytically Active Colloidal Platinum Nanocatalyst:  The Multiarmed Nanostar Single Crystal

Nanocatalysts that possess large amounts of atoms on sharp corners and edges and high indexed sites are known to be more catalytically active. We report here on a novel yet simple method to synthesize in large yields a very active platinum nanocatalyst; the multiarmed nanostar single crystal. We uti...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2008-04, Vol.130 (14), p.4590-4591
Main Authors: Mahmoud, Tabor, Christopher E, El-Sayed, Mostafa A, Ding, Yong, Wang, Zhong Lin
Format: Article
Language:English
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Summary:Nanocatalysts that possess large amounts of atoms on sharp corners and edges and high indexed sites are known to be more catalytically active. We report here on a novel yet simple method to synthesize in large yields a very active platinum nanocatalyst; the multiarmed nanostar single crystal. We utilize a seed mediated method using tetrahedral nanoparticles that are also synthesized by a new and simple technique. High-resolution TEM shows that the nanostar has many arms, varying from a few to over 30, whereby even the largest ones are found to have single-crystal structures. This strongly suggests that they are formed by a growth mechanism of the seed crystals and not by the aggregation of seed crystals, which should produce twinning planes. Due to the reduction reaction of ferrricyanide by thiosulfate, the nanostars are found to have an activation energy, which is nearly 60% of that of the tetrahedral seeds themselves, both having the same PVP capping agent. This is undoubtedly due to the multiarms with edges, corners, and the presence of high indexed facets in the nanostar catalyst.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja710646t