Abstract
A wild type virion, bacteriophage T4, was used as an organic template for the controlled synthesis and organization of Pt nanoparticles and nanoshells on its capsid. A long incubation of T4 virions with the metalchloride solution is necessary to the specific binding of the external surface of T4 capsid with PtIVby means of interactions between PtIVand the chemical functionality found inherently on the surface of the proteinaceous viral capsid. After chemical reduction with dimethylaminoborane (DMAB), the highly dispersive Pt nanoparticles with a uniform size of 3–4 nm were synthesized and covered the whole viral capsid. The packing density of Pt nanoparticles was enhanced by increasing the incubation cycles of the virions in metal salt solution. Moreover, Pt @T4 shell/core structures could be achieved by increasing the amount of metal ions around virons. UV/vis spectroscopy was used to follow the course of the reaction, and the formation mechanism was discussed. Both the small Pt nanoparticles and Pt @T4 shell/core structures show high electrocatalytic activity in electrochemical measurement, and therefore are expected to have potential applications in electrocatalysis.
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