Journal ArticleDOI
Silicon quantum wire array fabrication by electrochemical and chemical dissolution of wafers
TLDR
In this paper, free standing Si quantum wires can be fabricated without the use of epitaxial deposition or lithography using electrochemical and chemical dissolution steps to define networks of isolated wires out of bulk wafers.Abstract:
Indirect evidence is presented that free‐standing Si quantum wires can be fabricated without the use of epitaxial deposition or lithography. The novel approach uses electrochemical and chemical dissolution steps to define networks of isolated wires out of bulk wafers. Mesoporous Si layers of high porosity exhibit visible (red) photoluminescence at room temperature, observable with the naked eye under <1 mW unfocused (<0.1 W cm−2) green or blue laser line excitation. This is attributed to dramatic two‐dimensional quantum size effects which can produce emission far above the band gap of bulk crystalline Si.read more
Citations
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Seeded silicon nanowire growth catalyzed by commercially available bulk metals: broad selection of metal catalysts, superior field emission performance, and versatile nanowire/metal architectures
TL;DR: In this article, the authors demonstrate that bulk metals can be directly used as catalysts for seeded Si nanowire growth, such as Ag, Al, Au, Cu, Fe, Ni, Pb, and Ti.
Journal ArticleDOI
First-principles optical properties of silicon and germanium nanowires
TL;DR: In this article, the optical properties of hydrogen-passivated, free-standing silicon and germanium nanowires, oriented along the [1, 0, 0], [ 1, 1, 0] directions with diameters up to about 1.5mm, were analyzed taking into account different approximations.
Journal ArticleDOI
Optical characterization of silicon rich oxide films
Alfredo Morales-Sánchez,Jorge Barreto,C. Domínguez-Horna,Mariano Aceves-Mijares,Jose A. Luna-Lopez +4 more
TL;DR: In this paper, Si-rich oxide (SRO) films with different silicon excess were deposited by low pressure chemical vapor deposition (LPCVD) using SiH 4 and N 2 O as the reactant gasses.
Journal ArticleDOI
Synthetic vs Natural: Diatoms Bioderived Porous Materials for the Next Generation of Healthcare Nanodevices.
TL;DR: Main experiences on nature-derived nanoparticles with healthcare and biomedical functionalities are reviewed and critically analyzed in search of a new collection of biocompatible porous nanomaterials.
Journal ArticleDOI
Assembly of hexamolybdenum metallic clusters on silicon surfaces.
TL;DR: Mo6Ii8 (Ii=inner iodine) cluster cores are anchored in apical positions to monocrystalline silicon surfaces via pyridine groups, end-capping an alkyl monolayer which is covalently bound to the hydrogen-terminated silicon surface.
References
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Journal ArticleDOI
Electrolytic shaping of germanium and silicon
TL;DR: In this article, the properties of electrolyte-semiconductor barriers are described, with emphasis on germanium, and the use of these barriers in localizing electrolytic etching is discussed.
Journal ArticleDOI
Unusually low surface-recombination velocity on silicon and germanium surfaces.
TL;DR: It is found that a standard, widespread, chemical-preparation method for silicon, oxidation followed by an HF etch, results in a surface which from an electronic point of view is remarkably inactive, which has implications for the ultimate efficiency of silicon solar cells.
Journal ArticleDOI
Infrared spectroscopy of Si(111) and Si(100) surfaces after HF treatment: Hydrogen termination and surface morphology
TL;DR: In this paper, multiple internal infrared reflection spectroscopy has been used to identify the chemical nature of chemically oxidized and subsequently HF stripped silicon surfaces, and these very inert surfaces are found to be almost completely covered by atomic hydrogen.
Journal ArticleDOI
Hydrogen desorption kinetics from monohydride and dihydride species on silicon surfaces.
TL;DR: In this article, the authors measured hydrogen desorption from monohydride and dihydride species on crystalline-silicon surfaces using transmission Fourier-transform infrared (FTIR) spectroscopy.
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