Caroline Chèze scite author profile

Schottky barrier field effect transistors based on individual catalytically-grown and undoped Si-nanowires (NW) have been fabricated and characterized with respect to their gate lengths. The gate length was shortened by the axial, self-aligned formation of nickel-silicide source and drain segments along the NW. The transistors with 10-30 nm NW diameters displayed p-type behaviour, sustained current densities of up to 0.5 MA/cm2, and exhibited on/off current ratios of up to 10(7). The on-currents were limited and kept constant by the Schottky contacts for gate lengths below 1 microm, and decreased exponentially for gate lengths exceeding 1 microm.

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Sub-meV linewidth of excitonic luminescence in single GaN nanowires: Direct evidence for surface excitons

Brandt

et al. 2010

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We investigate the low-temperature photoluminescence of GaN nanowires grown catalyst free on Si͑111͒. For single nanowires dispersed on Si͑111͒, we observe excitonic transitions with linewidths below 300 eV and at energies clearly above the donor-bound exciton in the bulk. We show that these transitions are due to donor-bound excitons close to the surface. The broadening of about 3 meV observed for the nanowire ensemble is shown to be a natural consequence of the energy dispersion of bound-exciton states as a function of their distance from the surface.

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Direct comparison of catalyst-free and catalyst-induced GaN nanowires

et al. 2010

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GaN nanowires have been grown by molecular beam epitaxy either catalyst-free or catalyst-induced by means of Ni seeds. Under identical growth conditions of temperature and Ⅴ/Ⅲ ratio, both types of GaN nanowires are of wurtzite structure elongated in the Ga-polar direction and are constricted by M-plane facets. However, the catalyst-induced nanowires contain many more basal-plane stacking faults and their photoluminescence is weaker. These differences can be explained as effects of the catalyst Ni seeds.

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Statistical Analysis of the Shape of One-Dimensional Nanostructures: Determining the Coalescence Degree of Spontaneously Formed GaN Nanowires

Brandt

Fernández-Garrido

Zettler

et al. 2014

Crystal Growth & Design

109

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Single GaN nanowires formed spontaneously on a given substrate represent nanoscopic single crystals free of any extended defects. However, due to the high area density of thus formed GaN nanowire ensembles, individual nanowires coalesce with others in their immediate vicinity. This coalescence process may introduce strain and structural defects, foiling the idea of defect-free material due to the nanowire geometry. To investigate the consequences of this process, a quantitative measure of the coalescence of nanowire ensembles is required. We derive objective criteria to determine the coalescence degree of GaN nanowire ensembles. These criteria are based on the area-perimeter relationship of the cross-sectional shapes observed, and in particular on their circularity. Employing these criteria, we distinguish single nanowires from coalesced aggregates in an ensemble, determine the diameter distribution of both, and finally analyze the coalescence degree of nanowire ensembles with increasing fill factor.

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Properties of GaN Nanowires Grown by Molecular Beam Epitaxy

Geelhaar

Chèze

Jenichen

et al. 2011

IEEE J. Select. Topics Quantum Electron.

104

100

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Caroline Chèze

Silicon-Nanowire Transistors with Intruded Nickel-Silicide Contacts

Sub-meV linewidth of excitonic luminescence in single GaN nanowires: Direct evidence for surface excitons

Direct comparison of catalyst-free and catalyst-induced GaN nanowires

Statistical Analysis of the Shape of One-Dimensional Nanostructures: Determining the Coalescence Degree of Spontaneously Formed GaN Nanowires

Properties of GaN Nanowires Grown by Molecular Beam Epitaxy

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