2022
DOI: 10.1021/acsnanoscienceau.2c00028
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Observation of the Multilayer Growth Mode in Ternary InGaAs Nanowires

Abstract: Au-seeded semiconductor nanowires have classically been considered to only grow in a layer-by-layer growth mode, where individual layers nucleate and grow one at a time with an incubation step in between. Recent in situ investigations have shown that there are circumstances where binary semiconductor nanowires grow in a multilayer fashion, creating a stack of incomplete layers at the interface between a nanoparticle and a nanowire. In the current investigation, the growth behavior in ternary InGaAs nanowires h… Show more

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Cited by 6 publications
(8 citation statements)
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“…The introduction of environmental transmission electron microscopes (ETEMs) has allowed the exploration of some of the previously hidden aspects of nanowire growth dynamics in real time. Importantly, nanowires have in some circumstances been shown to exhibit unconventional growth modes that differ from the traditional view. , In situ growth has also proven to be an invaluable technique in developing new methods and strategies to circumvent known problems in conventional ex situ nanowire growth systems, which has most notably been demonstrated in Si nanowire growth. , The strength lies in that the surrounding growth conditions can be changed in real time based on the observations made, and the effects on the growth are immediate, which means that conclusions about the growth dynamics can quickly be drawn. By monitoring the growth and how it changes with the growth conditions, it is also easier to make rational decisions about how to adjust the growth conditions to achieve a specific result.…”
mentioning
confidence: 99%
“…The introduction of environmental transmission electron microscopes (ETEMs) has allowed the exploration of some of the previously hidden aspects of nanowire growth dynamics in real time. Importantly, nanowires have in some circumstances been shown to exhibit unconventional growth modes that differ from the traditional view. , In situ growth has also proven to be an invaluable technique in developing new methods and strategies to circumvent known problems in conventional ex situ nanowire growth systems, which has most notably been demonstrated in Si nanowire growth. , The strength lies in that the surrounding growth conditions can be changed in real time based on the observations made, and the effects on the growth are immediate, which means that conclusions about the growth dynamics can quickly be drawn. By monitoring the growth and how it changes with the growth conditions, it is also easier to make rational decisions about how to adjust the growth conditions to achieve a specific result.…”
mentioning
confidence: 99%
“…After the seed particle was reshaped at the ZB GaP NW tip, multilayer growth (nucleation of new bilayers before the bilayer closest to the growth front could fully evolve) [ 64 ] promoted by the Cu 9 Ga 4 phase proceeded for approximately 10 GaP bilayers (see Movie S4, Supporting Information). Multilayer GaP NW growth via the VSS mechanism yielded a ZB GaP segment without the formation of twins/stacking faults ( Figure a).…”
Section: Resultsmentioning
confidence: 99%
“…Layer by layer, generating the longitudinal growth of the NW. Although, multilayer growth has also been demonstrated 104 . After a certain growth time and for a chosen NW length, the growth conditions are changed to switch to crystal phase B.…”
Section: Nanowire Growthmentioning
confidence: 99%
“…It is worth mentioning that the layer evolution in ternary NWs can determine and affect the resulting composition 117 . Recently, Sjökvist and co-workers reported 104 , using in situ TEM investigations the growth of InGaAs NWs. Therefore, creating a stack of incomplete layers at the catalyst-NW interface.…”
Section: Controlling the Nucleation And Layer Growthmentioning
confidence: 99%
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