Face-selective electrostatic control of hydrothermal zinc oxide nanowire synthesis
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Rational control over the morphology and the functional properties of inorganic nanostructures has been a long-standing goal in the development of bottom-up device fabrication processes. We report that the geometry of hydrothermally grown zinc oxide nanowires can be tuned from platelets to needles, covering more than three orders of magnitude in aspect ratio (~0.1–100). We introduce a classical thermodynamics-based model to explain the underlying growth inhibition mechanism by means of the competitive and face-selective electrostatic adsorption of non-zinc complex ions at alkaline conditions. The performance of these nanowires rivals that of vapour-phase-grown nanostructures and their low-temperature synthesis (<60 °C) is favourable to the integration and in situ fabrication of complex and polymer-supported devices. We illustrate this capability by fabricating an all-inorganic light-emitting diode in a polymeric microfluidic manifold. Our findings indicate that electrostatic interactions in aqueous crystal growth may be systematically manipulated to synthesize nanostructures and devices with enhanced structural control.
Date issued
2011-07Department
Massachusetts Institute of Technology. Center for Bits and Atoms; Massachusetts Institute of Technology. Department of Biological Engineering; Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences; Massachusetts Institute of Technology. Department of Materials Science and Engineering; Massachusetts Institute of Technology. Media Laboratory; Program in Media Arts and Sciences (Massachusetts Institute of Technology)Journal
Nature Materials
Publisher
Nature Publishing Group
Citation
Joo, Jaebum, Brian Y. Chow, Manu Prakash, Edward S. Boyden, and Joseph M. Jacobson 2011Face-selective Electrostatic Control of Hydrothermal Zinc Oxide Nanowire Synthesis. Nature Materials 10(8): 596–601.
Version: Author's final manuscript
ISSN
1476-1122
1476-4660