Comparative study of silicon quantum dot formation In - situ grown with a gas mixture of SiH4+N2 and SiH4+NH3

Tae Youb Kim; Nae Man Park; In Kyu You; Cheol Jong Choi; Ansoon Kim; Maki Suemitsu

doi:10.3938/jkps.59.308

Comparative study of silicon quantum dot formation In - situ grown with a gas mixture of SiH₄+N₂ and SiH₄+NH₃

Tae Youb Kim, Nae Man Park, In Kyu You, Cheol Jong Choi, Ansoon Kim, Maki Suemitsu

Information Devices Division

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

In this study, we investigated the growth mechanism of silicon quantum dots (Si QDs) embedded in a Si-nitride film formed by using plasma-enhanced chemical vapor deposition. Special attention was paid to the influence of the nitrogen source, especially in molecular nitrogen (N₂) and ammonia (NH₃). We found that the nitrogen source played a decisive role in determining the location of nucleation sites of Si QDs. In the case of the SiH₄+NH₃ gas source, the Si QDs mainly nucleated at the surface of the Si substrate, in contrast to the case of SiH₄+N₂ which should no such tendency. We believe that a specific surface reaction of the initially adsorbed NH₃ molecules forming lowdimensional structures (NH₂-Si-Si-H) on the Si substrate provide the nucleation sites for Si QDs when using a SiH₄+NH₃ plasma.

Original language	English
Pages (from-to)	308-311
Number of pages	4
Journal	Journal of the Korean Physical Society
Volume	59
Issue number	2
DOIs	https://doi.org/10.3938/jkps.59.308
Publication status	Published - 2011 Aug 12

Keywords

In-situ formed Si-QDs
Silicon Quantum Dots (Si-QDs)
Silicon nitride films

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.3938/jkps.59.308

Cite this

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title = "Comparative study of silicon quantum dot formation In - situ grown with a gas mixture of SiH4+N2 and SiH4+NH3",

abstract = "In this study, we investigated the growth mechanism of silicon quantum dots (Si QDs) embedded in a Si-nitride film formed by using plasma-enhanced chemical vapor deposition. Special attention was paid to the influence of the nitrogen source, especially in molecular nitrogen (N2) and ammonia (NH3). We found that the nitrogen source played a decisive role in determining the location of nucleation sites of Si QDs. In the case of the SiH4+NH3 gas source, the Si QDs mainly nucleated at the surface of the Si substrate, in contrast to the case of SiH4+N2 which should no such tendency. We believe that a specific surface reaction of the initially adsorbed NH3 molecules forming lowdimensional structures (NH2-Si-Si-H) on the Si substrate provide the nucleation sites for Si QDs when using a SiH4+NH3 plasma.",

keywords = "In-situ formed Si-QDs, Silicon Quantum Dots (Si-QDs), Silicon nitride films",

author = "Kim, {Tae Youb} and Park, {Nae Man} and You, {In Kyu} and Choi, {Cheol Jong} and Ansoon Kim and Maki Suemitsu",

year = "2011",

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AU - Kim, Tae Youb

AU - Park, Nae Man

AU - You, In Kyu

AU - Choi, Cheol Jong

AU - Kim, Ansoon

AU - Suemitsu, Maki

PY - 2011/8/12

Y1 - 2011/8/12

N2 - In this study, we investigated the growth mechanism of silicon quantum dots (Si QDs) embedded in a Si-nitride film formed by using plasma-enhanced chemical vapor deposition. Special attention was paid to the influence of the nitrogen source, especially in molecular nitrogen (N2) and ammonia (NH3). We found that the nitrogen source played a decisive role in determining the location of nucleation sites of Si QDs. In the case of the SiH4+NH3 gas source, the Si QDs mainly nucleated at the surface of the Si substrate, in contrast to the case of SiH4+N2 which should no such tendency. We believe that a specific surface reaction of the initially adsorbed NH3 molecules forming lowdimensional structures (NH2-Si-Si-H) on the Si substrate provide the nucleation sites for Si QDs when using a SiH4+NH3 plasma.

AB - In this study, we investigated the growth mechanism of silicon quantum dots (Si QDs) embedded in a Si-nitride film formed by using plasma-enhanced chemical vapor deposition. Special attention was paid to the influence of the nitrogen source, especially in molecular nitrogen (N2) and ammonia (NH3). We found that the nitrogen source played a decisive role in determining the location of nucleation sites of Si QDs. In the case of the SiH4+NH3 gas source, the Si QDs mainly nucleated at the surface of the Si substrate, in contrast to the case of SiH4+N2 which should no such tendency. We believe that a specific surface reaction of the initially adsorbed NH3 molecules forming lowdimensional structures (NH2-Si-Si-H) on the Si substrate provide the nucleation sites for Si QDs when using a SiH4+NH3 plasma.

KW - In-situ formed Si-QDs

KW - Silicon Quantum Dots (Si-QDs)

KW - Silicon nitride films

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