Spontaneous, Solvent-Free, Polymer-Templated, Solid–Solid Transformation of Thin Metal Films into Nanoparticles

Metal nanoparticles have unusual optical, electronic, sensing, recognition, catalytic, and therapeutic properties. They are expected to form the basis of many of the technological and biological innovations of this century. A prerequisite for future applications using nanoparticles as functional ent...

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Published in:Nano letters 2016-09, Vol.16 (9), p.5420-5425
Main Authors: Hernández-Cruz, Olivia, Avila-Gutierrez, Lizeth, Zolotukhin, Mikhail G, Gonzalez, Gonzalo, Monroy, B. Marel, Montiel, Raúl, Vera-Graziano, Ricardo, Romero-Ibarra, Josue E, Novelo-Peralta, Omar, Massó Rojas, Felipe Alonso
Format: Article
Language:English
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Summary:Metal nanoparticles have unusual optical, electronic, sensing, recognition, catalytic, and therapeutic properties. They are expected to form the basis of many of the technological and biological innovations of this century. A prerequisite for future applications using nanoparticles as functional entities is control of the shape, size, and homogeneity of these nanoparticles and of their interparticle spacing and arrangement on surfaces, between electrodes, or in devices. Here, we demonstrate that thin films of gold, silver, and copper sputter-deposited onto the surface of an organic polymer poly­[[1,1′:4′,1″-terphenyl]-4,4″-diyl­(2-bromo-1-carboxyethylidene)] (PTBC) undergo spontaneous solid–solid transformation into nanoparticles. Furthermore, we show that, by varying the thickness of the films, the volume-to-surface ratio of the polymer substrate, and the amount of plasticizer, it is possible to control the rate of transformation and the morphology of the nanoparticles formed. PTBC containing Au nanoparticles was found to enhance the cell adhesion and proliferation. To the best of our knowledge, our findings constitute the first experimental evidence of spontaneous, room-temperature, solid–solid transformation of metal films sputtered onto the surface of an organic polymeric substrate into nanoparticles (crystals).
ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.6b01780