Analysis of catalyst surface wetting: the early stage of epitaxial germanium nanowire growth

Ernst, Owen C.; Lange, Felix; Uebel, David; Teubner, T.; Boeck, T.

doi:10.3762/bjnano.11.121

Cited by 3 publications

(1 citation statement)

References 42 publications

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“…Therefore, it is important to critically examine the kinetics of formation of droplets as well. It has been shown that stability and formation mechanisms can be formulated in strict thermodynamic laws and that the substrate with its interfacial energy plays a very decisive role in the behavior of metal droplets. − …”

Section: Introductionmentioning

confidence: 99%

Morphogenesis of Liquid Indium Microdroplets on Solid Molybdenum Surfaces during Solidification at Normal Pressure and under Vacuum Conditions

et al. 2022

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Electrical and optical applications based on micro-and nanoparticles have specific demands on their interfacial properties. These properties are strongly related to atmospheric conditions to which the particles were exposed during their formation. In this study, metallic In microparticles are synthesized by solidification of In droplets on an amorphous Mo substrate at normal pressure and under vacuum conditions. The influence of ambient pressure on the interface and surface shape is investigated. While solidification at atmospheric pressure leads to collapsed particles with undisturbed contact to the substrate, low pressures result in smooth spherical particles but with cavities inside. Numerical simulations with COMSOL Multiphysics reveal different temperature profiles and heat flux in particles during solidification for both cases. This indicates different starting conditions of the solidification, which leads to the described phenomenon eventually. The investigation of the varying process conditions on the particle shape in combination with the calculated and measured temperature curves over time gives valuable insights into new approaches to synthesize micro-and nanoparticles with defined interfacial properties. Both ambient pressure and cooling rate provide well-controllable and reliable parameters for the realization of different interfacial shapes.

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Section: Introductionmentioning

confidence: 99%

Morphogenesis of Liquid Indium Microdroplets on Solid Molybdenum Surfaces during Solidification at Normal Pressure and under Vacuum Conditions

et al. 2022

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Revealing all states of dewetting of a thin gold layer on a silicon surface by nanosecond laser conditioning

Ernst

Uebel

Kayser

et al. 2021

Applied Surface Science Advances

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Leveraging dewetting models rather than nucleation models: current crystallographic challenges in interfacial and nanomaterials research

Ernst

Liu

Boeck

2022

Zeitschrift Für Kristallographie - Crystalline Materials

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No scientific model has shaped crystallography as much as the classical nucleation theory (CNT). The majority of all growth processes and particle formation processes are attributed to the CNT. However, alternative descriptions exist that may be better suited to explain material formation under certain conditions. One of these alternatives is the dewetting theory (DWT). To describe the possibilities of DWT in more detail, we selected three material systems for three current application areas: Gold particles on silicon as catalysts for nanowire growth, indium particles on molybdenum as precursor material in novel solar cell concepts, and silicon layers on silicon germanium as potential wells in semiconductor quantum computers. Each of these material systems showed particular advantages of DWT over CNT. For example, the properties of surface particles with high atomic mobility could be described more realistically using DWT. Yet, there were clear indications that the DWT is not yet complete and that further research is needed to complete it. In particular, modern crystallographic challenges could serve this purpose, for example the development of semiconductor quantum computers, in order to re-evaluate known models such as the CNT and DWT and adapt them to the latest state of science and technology. For the time being, this article will give an outlook on the advantages of the DWT today and its potential for future research in crystallography.

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Analysis of catalyst surface wetting: the early stage of epitaxial germanium nanowire growth

Cited by 3 publications

References 42 publications

Morphogenesis of Liquid Indium Microdroplets on Solid Molybdenum Surfaces during Solidification at Normal Pressure and under Vacuum Conditions

Morphogenesis of Liquid Indium Microdroplets on Solid Molybdenum Surfaces during Solidification at Normal Pressure and under Vacuum Conditions

Revealing all states of dewetting of a thin gold layer on a silicon surface by nanosecond laser conditioning

Leveraging dewetting models rather than nucleation models: current crystallographic challenges in interfacial and nanomaterials research

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