Growth of Nickel Silicides in Si and Si/SiOx Core/Shell Nanowires

Lin, Ying‐Dar; Chen, Yu; Xu, Di; Huang, Yu

doi:10.1021/nl103156q

Cited by 73 publications

(98 citation statements)

References 29 publications

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“…The identification of NiSi 2 is consistent with work by Lin et al [55] and Ogata et al [56], who studied silicide formation using [111] SiNWs and in situ TEM. However, Lin et al additionally saw the growth of a more Ni-rich silicide immediately adjacent to the Ni pad after the NiSi 2 segment began to grow.…”

Section: Reaction Of Ni With [111] Sinwssupporting

confidence: 89%

“…The sample geometries have included Ni contact pads on SiNWs [11,[51][52][53][54][55][56][57], point contacts between NiNWs and SiNWs [58,59] and even reactions with polycrystalline SiNWs [60]. Using the same approach described in earlier sections in our studies of other metals, we have reported phase formation and growth kinetics of Ni-silicides as a result of solid-state reaction of Ni contact pads with SiNWs [11,61].…”

Section: Ni-sinw Solid-state Reactionmentioning

confidence: 99%

“…Several authors have noted that silicidation is slowed with increasing oxide shell thickness (for Si/SiO 2 core/shell nanowires) [55,56] or when a carbonaceous shell surrounds the nanowire [65]. Compressive stress builds up as Ni atoms diffuse into the nanowire to form a Ni-silicide without the shell expanding sufficiently to make room for them, slowing diffusion.…”

Section: Kinetics Of Silicide Formationmentioning

confidence: 99%

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Silicide formation in contacts to Si nanowires

2012

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Silicides, intermetallic compounds formed by the reaction of a metal and Si, have long been used as contacts for metal oxide semiconductor (CMOS) transistors and have more become interesting for other Si nanowire (SiNW) devices. In the following, experimental results for the Ti, V, Pt, Pd, Fe, and Ni-Si systems are reported and placed in the context of prior work on silicide formation from metal films on Si wafers. For the early transition metals Ti and V, the silicide is formed only underneath the contact pad and is Si-rich (MSi 2 ). For the middle transition metal Fe and late transition metals Pt and Pd, a metal-rich silicide was the first phase observed to form, but poor morphologies were common, making it a challenge to incorporate these contacts into nanowire devices. Nickel contacts were the only ones with well-behaved axial silicide growth away from the contact pad, and silicide formation was strongly dependent on the original SiNW orientation. These findings are discussed in terms of kinetic features of the metal-SiNW systems.

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Section: Reaction Of Ni With [111] Sinwssupporting

confidence: 89%

Section: Ni-sinw Solid-state Reactionmentioning

confidence: 99%

Section: Kinetics Of Silicide Formationmentioning

confidence: 99%

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Silicide formation in contacts to Si nanowires

2012

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“…Recently, various strategies have been developed for the growth of nickel silicide nanostructures involving about six stable nickel silicide phases, such as Ni 3 Si NWs [14], Ni 31 Si 12 NWs [15], Ni 2 Si NWs [11,16], Ni 3 Si 2 NWs [17], NiSi NWs [9,12,13], and NiSi 2 NWs [18], some of which have been successfully applied to nanoscale devices [19,20]. Generally, the method to synthesize different phases and morphologies of nickel silicides can be divided into two routes: delivery of Ni precursors to silicon and deposition of silicon sources on Ni film, both of which are based on the fundamental and crucial process of Ni-diffusion in silicon [9,12,13,21,22]. Particularly, the CVD growth of 1D nickel silicide nanostructures using SiH 4 as the precursor gas is widely adopted because it can offer practical advantages to produce singlecrystalline nanostructures and may be integrated into Si-based semiconductor devices.…”

Section: Introductionmentioning

confidence: 99%

Phase-controlled synthesis of nickel silicide nanostructures

Fan¹,

Zhang²,

Du³

et al. 2012

Materials Research Bulletin

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“…[6] Different phases by phase formation of silicide NWs were recognized by capping NWs with a SiO x shell that provided improved understanding of the growth mechanism. [7] Due to the high surface defects exhibited by SiNWs, there is a need for a surface passivation before incorporating NWs in electronic devices. High chemical stability and better compatibility without causing any stress to SiNWs, SiO x is the best candidate as a protective shell.…”

mentioning

confidence: 99%

Birth of silicon nanowires covered with protective insulating blanket

Manjunatha

2017

MRS Communications

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Core-shell silicon-silicon oxide nanowires are synthesized at low temperatures using inorganic and organic compounds of a tin as a catalyst. In situ simultaneous one-dimensional growth of pristine silicon nanowires (SiNWs) using alloy catalyst is reported here. Such a development process generates a high-quality SiNW that is not determined by other atomic species in the plasma. A possible growth model is discussed to understand the synchronized precipitation of a SiNW core and an oxide shell. Nanowires grown here eliminate the additional fabrication steps to deposit anticipated oxide shell that is achieved by precipitation from the same catalyst that precipitates core nanowires.

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Growth of Nickel Silicides in Si and Si/SiOx Core/Shell Nanowires

Cited by 73 publications

References 29 publications

Silicide formation in contacts to Si nanowires

Silicide formation in contacts to Si nanowires

Phase-controlled synthesis of nickel silicide nanostructures

Birth of silicon nanowires covered with protective insulating blanket

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