2016
DOI: 10.1016/j.jcrysgro.2015.11.035
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InAs nanowire growth modes on Si (111) by gas source molecular beam epitaxy

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Cited by 8 publications
(5 citation statements)
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“…Since the smallest period of 1000 nm in our study is likely beyond this competitive growth regime, which is evidenced by the In/Sb droplets between the nanowires, it cannot explain our diameter trend with period. Instead, vapor-solid growth can show a proportional relationship, as in our study, since it does not rely on the supersaturation of a catalyst particle for axial growth [11]. In this case, the diameter difference between the arrays can be attributed to an increased adatom re-emission flux from the oxide surface between neighboring nanowires [21,22].…”
Section: Resultsmentioning
confidence: 62%
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“…Since the smallest period of 1000 nm in our study is likely beyond this competitive growth regime, which is evidenced by the In/Sb droplets between the nanowires, it cannot explain our diameter trend with period. Instead, vapor-solid growth can show a proportional relationship, as in our study, since it does not rely on the supersaturation of a catalyst particle for axial growth [11]. In this case, the diameter difference between the arrays can be attributed to an increased adatom re-emission flux from the oxide surface between neighboring nanowires [21,22].…”
Section: Resultsmentioning
confidence: 62%
“…Indium was supplied by a standard effusion cell and As 2 was supplied from a hydride (AsH 3 ) gas cracker operating at 950 °C. Growth was performed in three stages; a short (50 nm) InAs stem for optimized yield and epitaxy [11], an InAsSb core with a Sb beam equivalent pressure (BEP) of 1×10 −7 Torr, and an InAsSb shell with an Sb BEP of 2.84×10 −7 Torr to achieve 5% and 14% fractional flux (flux of Sb relative to the total group V flux), respectively. In a fractional flux study (see supporting information available online at stacks.iop.org/NANOF/ 1/035001/mmedia) 5% fractional flux produced InAsSb nanowires with 23% Sb, and a 14% fractional flux resulted in 33% Sb.…”
Section: Methodsmentioning
confidence: 99%
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“…However, the contact area of the nws with the Si substrate can be much smaller than the nw diameter (D) such that misfit dislocations are avoided. Selective-area epitaxy is one of the most common methods for the growth of nw arrays, whereby nws nucleate in an array of patterned holes that are formed in an oxide layer on a Si substrate [19]. In this approach, the contact area between each nw and the Si substrate (defined by the hole size) can remain below a critical diameter to avoid the formation of misfit dislocations [20], while the nw diameter can exceed the hole diameter by overgrowth onto the oxide.…”
Section: Absorptance In An Insb Nw Mwir Photodetectormentioning
confidence: 99%
“…На сегодняшний день наиболее распространенными механизмами для описания роста полупроводниковых ННК являются предложенный Вагнером и Эллисом механизм " пар−жидкость−кристалл" (ПЖК) [1], который впоследствии был развит многочисленными авторами [2], и диффузионный механизм [3,4]. Особенности этих процессов многократно исследовались различными авторами [5][6][7][8][9][10][11][12][13]. В работах Дубровского, Гласа и др.…”
Section: Introductionunclassified