Results 241 to 250 of about 120,580 (269)
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Langmuir, 2020
Gold nanowires (AuNWs) possess strong potential application in micro- and nanoelectronics as well as in plasmonic waveguides because of their low electrical resistance. However, the synthesis of pure solvent-dispersible AuNWs with full control over their length still remains a challenge.
Bishnu P. Khanal, Eugene R. Zubarev
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Gold nanowires (AuNWs) possess strong potential application in micro- and nanoelectronics as well as in plasmonic waveguides because of their low electrical resistance. However, the synthesis of pure solvent-dispersible AuNWs with full control over their length still remains a challenge.
Bishnu P. Khanal, Eugene R. Zubarev
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Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena, 2005
Diamond nanorods are one-dimensional carbon nanostructures consisting of all sp3 bonded carbon atoms. They represent an alternative class of carbon structure to fullerene nanotubes for potential applications in nanocomposites for mechanical reinforcement and thermal management, as well as in microelectronics.
O. A. Shenderova +3 more
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Diamond nanorods are one-dimensional carbon nanostructures consisting of all sp3 bonded carbon atoms. They represent an alternative class of carbon structure to fullerene nanotubes for potential applications in nanocomposites for mechanical reinforcement and thermal management, as well as in microelectronics.
O. A. Shenderova +3 more
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2015
Electrodeposition is a key technique to create nanostructures of metals and inorganic semiconductors. Unlike the electrodeposition of metals, the fabrication of nanostructures of binary semiconductors with desired crystallinity and stoichiometry is not straightforward.
Néstor L. Chévere-Trinidad +3 more
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Electrodeposition is a key technique to create nanostructures of metals and inorganic semiconductors. Unlike the electrodeposition of metals, the fabrication of nanostructures of binary semiconductors with desired crystallinity and stoichiometry is not straightforward.
Néstor L. Chévere-Trinidad +3 more
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Colloidal Luminescent Silicon Nanorods
Nano Letters, 2013Silicon nanorods are grown by trisilane decomposition in hot squalane in the presence of tin (Sn) nanocrystals and dodecylamine. Sn induces solution-liquid-solid nanorod growth with dodecylamine serving as a stabilizing ligand. As-prepared nanorods do not luminesce, but etching with hydrofluoric acid to remove residual surface oxide followed by thermal
Xiaotang, Lu +4 more
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Phospholipid−Gold Nanorod Composites
ACS Nano, 2009Phospholipids comprise an enormous range of chemical structures that provide much of the functionality associated with cellular membranes. We have developed a simple method for incorporating phospholipids onto the surfaces of anisotropic gold nanorods as a stepping-stone for creating responsive and multifunctional nanocomposites.
Christopher J, Orendorff +4 more
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Ultraviolet ZnO Nanorod Photosensors
Langmuir, 2009This study fabricates and characterizes ultraviolet (UV) photosensors with ZnO nanorods (NRs). The NR arrays were selectively grown in the gap between interdigitated (IDT) electrodes of devices using hydrothermal solution processes and a lithography-based technique.
Y K, Su +5 more
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Synthesis of magnetite nanorods and porous hematite nanorods
Solid State Communications, 2004Abstract Fe 3 O 4 nanorods with average diameters of 40–50 nm and lengths of up to 1 μm were synthesized through hydrolysis of FeCl 3 and FeSO 4 solutions containing urea in the temperature range from 90 to 95 °C in reflux condition for 12 h, following an aging time of 12 h.
Suoyuan Lian +7 more
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Nanorod-Based Supramolecular Nanocomposites: Effects of Nanorod Length
Macromolecules, 2016Nanorods (NRs) have unique anisotropic properties that are desirable for various applications. Block copolymer-based supramolecules present unique opportunities to control inter-rod ordering and macroscopic alignment of NRs to fully take advantage of their unique anisotropic properties.
Kari Thorkelsson +2 more
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Assembled Monolayer Nanorod Heterojunctions
ACS Nano, 2011Compositional and interfacial control in heterojunction thin films is critical to the performance of complex devices that separate or combine charges. For high performance, these applications require epitaxially matched interfaces, which are difficult to produce.
Jessy B, Rivest +4 more
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