O. Picht scite author profile

The fabrication of three-dimensional assemblies consisting of large quantities of nanowires is of great technological importance for various applications including (electro-)catalysis, sensitive sensing, and improvement of electronic devices. Because the spatial distribution of the nanostructured material can strongly influence the properties, architectural design is required in order to use assembled nanowires to their full potential. In addition, special effort has to be dedicated to the development of efficient methods that allow precise control over structural parameters of the nanoscale building blocks as a means of tuning their characteristics. This paper reports the direct synthesis of highly ordered large-area nanowire networks by a method based on hard templates using electrodeposition within nanochannels of ion track-etched polymer membranes. Control over the complexity of the networks and the dimensions of the integrated nanostructures are achieved by a modified template fabrication. The networks possess high surface area and excellent transport properties, turning them into a promising electrocatalyst material as demonstrated by cyclic voltammetry studies on platinum nanowire networks catalyzing methanol oxidation. Our method opens up a new general route for interconnecting nanowires to stable macroscopic network structures of very high integration level that allow easy handling of nanowires while maintaining their connectivity.

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Visualization of Multipolar Longitudinal and Transversal Surface Plasmon Modes in Nanowire Dimers

Alber

Sigle

Müller

et al. 2011

ACS Nano

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We study the transversal and longitudinal localized surface plasmon resonances in single nanowires and nanowire dimers excited by the fast traveling electron beam in a transmission electron microscope equipped with high-resolution electron energy-loss spectroscopy. Bright and dark longitudinal modes up to the fifth order are resolved on individual metallic nanowires. On nanowire dimers, mode splitting into bonding and antibonding is measured up to the third order for several dimers with various aspect ratio and controlled gap size. We observe that the electric field maxima of the bonding modes are shifted toward the gap, while the electric field maxima of the antibonding modes are shifted toward the dimer ends. Finally, we observe that the transversal mode is not detected in the region of the dimer gap and decays away from the rod more rapidly than the longitudinal modes.

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Electrochemical Synthesis of Bi_1–xSb_x Nanowires with Simultaneous Control on Size, Composition, and Surface Roughness

Müller

Schötz

Picht

et al. 2011

Crystal Growth & Design

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We present the synthesis of Bi1–x Sb x nanowires with controlled composition between x = 0.05 and x = 0.40 over a wide range of diameters (20–100 nm) interesting for the investigation of the enhancement of thermoelectric efficiency via quantum size effects. We find that the relative concentration of Bi and Sb ions in the electrolyte, together with the deposition potential, determines the resulting nanowire composition. Morphology and composition were analyzed using X-ray diffraction, electron microscopy, and energy dispersive X-ray analysis. Two different templates were fabricated to enable the synthesis of nanowires with smooth and rough contour.

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Surface Plasmon Resonances of Cu Nanowire Arrays

et al. 2009

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Surface plasmon resonances of arrays of parallel copper nanowires, embedded in ion track-etched polycarbonate membranes, were investigated by systematic changes of nanowires' topology and arrays area density. The extinction spectra exhibit two peaks which are attributed to interband transitions of Cu bulk metal and to a dipolar surface plasmon resonance, respectively. The resonances were investigated as a function of wire diameter and length, mean distance between adjacent wires, and angle of incidence of the light field with respect to the long wire axis. The dipolar peak shifts to larger wavelengths with increasing diameter and length, and diminishing mean distance between adjacent wires. Additionally, the shape effect on the dipolar peak is investigated.

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O. Picht

Highly-Ordered Supportless Three-Dimensional Nanowire Networks with Tunable Complexity and Interwire Connectivity for Device Integration

Visualization of Multipolar Longitudinal and Transversal Surface Plasmon Modes in Nanowire Dimers

Electrochemical Synthesis of Bi_1–xSb_x Nanowires with Simultaneous Control on Size, Composition, and Surface Roughness

Surface Plasmon Resonances of Cu Nanowire Arrays

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O. Picht

Highly-Ordered Supportless Three-Dimensional Nanowire Networks with Tunable Complexity and Interwire Connectivity for Device Integration

Visualization of Multipolar Longitudinal and Transversal Surface Plasmon Modes in Nanowire Dimers

Electrochemical Synthesis of Bi1–xSbx Nanowires with Simultaneous Control on Size, Composition, and Surface Roughness

Surface Plasmon Resonances of Cu Nanowire Arrays

Contact Info

Product

Resources

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Electrochemical Synthesis of Bi_1–xSb_x Nanowires with Simultaneous Control on Size, Composition, and Surface Roughness