Synthesis of Si nanosheets by a chemical vapor deposition process and their blue emissions

Ungkil Kim; Ilsoo Kim; Yonghee Park; Ki Young Lee; Sang Youp Yim; Jae Gwan Park; Hong Gyu Ahn; Seung Han Park; Heon Jin Choi

doi:10.1021/nn103385p

Synthesis of Si nanosheets by a chemical vapor deposition process and their blue emissions

Ungkil Kim, Ilsoo Kim, Yonghee Park, Ki Young Lee, Sang Youp Yim, Jae Gwan Park, Hong Gyu Ahn, Seung Han Park, Heon Jin Choi

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

102 Citations (Scopus)

Abstract

We synthesized free-standing Si nanosheets (NSs) with a thickness of about <2 nm using a chemical vapor deposition process and studied their optical properties. The Si NSs were formed by the formation of frameworks first along six different 〈110〉 directions normal to [111], its zone axis, and then by filling the spaces between the frameworks along the 〈112〉 directions under high flow rate of processing gas. The Si NSs showed blue emission at 435 nm, and absorbance and photoluminescence (PL) excitation measurements indicate that enhanced direct band transition attributes to the emission. Time-resolved PL measurement, which showed PL emission at 435 nm and a radiative lifetime of 1.346 ns, also indicates the enhanced direct band gap transition in these Si NSs. These outcomes indicate that dimensionality of Si nanostructures may affect the band gap transition and, in turn, the optical properties.

Original language	English
Pages (from-to)	2176-2181
Number of pages	6
Journal	ACS Nano
Volume	5
Issue number	3
DOIs	https://doi.org/10.1021/nn103385p
Publication status	Published - 2011 Mar 22

All Science Journal Classification (ASJC) codes

Materials Science(all)
Engineering(all)
Physics and Astronomy(all)

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10.1021/nn103385p

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title = "Synthesis of Si nanosheets by a chemical vapor deposition process and their blue emissions",

abstract = "We synthesized free-standing Si nanosheets (NSs) with a thickness of about <2 nm using a chemical vapor deposition process and studied their optical properties. The Si NSs were formed by the formation of frameworks first along six different 〈110〉 directions normal to [111], its zone axis, and then by filling the spaces between the frameworks along the 〈112〉 directions under high flow rate of processing gas. The Si NSs showed blue emission at 435 nm, and absorbance and photoluminescence (PL) excitation measurements indicate that enhanced direct band transition attributes to the emission. Time-resolved PL measurement, which showed PL emission at 435 nm and a radiative lifetime of 1.346 ns, also indicates the enhanced direct band gap transition in these Si NSs. These outcomes indicate that dimensionality of Si nanostructures may affect the band gap transition and, in turn, the optical properties.",

author = "Ungkil Kim and Ilsoo Kim and Yonghee Park and Lee, {Ki Young} and Yim, {Sang Youp} and Park, {Jae Gwan} and Ahn, {Hong Gyu} and Park, {Seung Han} and Choi, {Heon Jin}",

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AU - Kim, Ungkil

AU - Kim, Ilsoo

AU - Park, Yonghee

AU - Lee, Ki Young

AU - Yim, Sang Youp

AU - Park, Jae Gwan

AU - Ahn, Hong Gyu

AU - Park, Seung Han

AU - Choi, Heon Jin

PY - 2011/3/22

Y1 - 2011/3/22

N2 - We synthesized free-standing Si nanosheets (NSs) with a thickness of about <2 nm using a chemical vapor deposition process and studied their optical properties. The Si NSs were formed by the formation of frameworks first along six different 〈110〉 directions normal to [111], its zone axis, and then by filling the spaces between the frameworks along the 〈112〉 directions under high flow rate of processing gas. The Si NSs showed blue emission at 435 nm, and absorbance and photoluminescence (PL) excitation measurements indicate that enhanced direct band transition attributes to the emission. Time-resolved PL measurement, which showed PL emission at 435 nm and a radiative lifetime of 1.346 ns, also indicates the enhanced direct band gap transition in these Si NSs. These outcomes indicate that dimensionality of Si nanostructures may affect the band gap transition and, in turn, the optical properties.

AB - We synthesized free-standing Si nanosheets (NSs) with a thickness of about <2 nm using a chemical vapor deposition process and studied their optical properties. The Si NSs were formed by the formation of frameworks first along six different 〈110〉 directions normal to [111], its zone axis, and then by filling the spaces between the frameworks along the 〈112〉 directions under high flow rate of processing gas. The Si NSs showed blue emission at 435 nm, and absorbance and photoluminescence (PL) excitation measurements indicate that enhanced direct band transition attributes to the emission. Time-resolved PL measurement, which showed PL emission at 435 nm and a radiative lifetime of 1.346 ns, also indicates the enhanced direct band gap transition in these Si NSs. These outcomes indicate that dimensionality of Si nanostructures may affect the band gap transition and, in turn, the optical properties.

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Synthesis of Si nanosheets by a chemical vapor deposition process and their blue emissions

Abstract

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