Raman spectroscopy of ZnS nanostructures

J. H. Kim; H. Rho; J. Kim; Y. J. Choi; J. G. Park

doi:10.1002/jrs.3116

Raman spectroscopy of ZnS nanostructures

J. H. Kim
, H. Rho^*
, J. Kim
, Y. J. Choi
, J. G. Park

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Journal article › peer-review

96 Scopus citations

Abstract

We report Raman scattering results of wurtzite ZnS nanowires, nanocombs, and nanobelts. The Raman spectrum obtained from ZnS nanowires exhibits first-order phonon modes at 272, 284, and 350 cm^-1, corresponding to A₁/E₁ transverse optical, E₂ transverse optical, and A₁/E₁ longitudinal optical phonons, respectively. Several multiphonon modes are also observed. The longitudinal optical phonon mode varies in wavenumber for nanocombs and nanobelts, indicating that the residual strain varies during the morphological change from ZnS nanowires to nanocombs and ultimately to nanobelts. Interestingly, a surface optical (SO) phonon mode varies in wavenumber depending on the shape and surface roughness of the ZnS nanostructures. The surface modulation wavelengths of the ZnS nanowires, nanocombs, and nanobelts are estimated using the SO phonon dispersion relations and the observed SO phonon wavenumbers.

Original language	English
Pages (from-to)	906-910
Number of pages	5
Journal	Journal of Raman Spectroscopy
Volume	43
Issue number	7
DOIs	https://doi.org/10.1002/jrs.3116
State	Published - 2012.07

Keywords

nanobelt
nanocomb
nanowire
Raman scattering
ZnS

Quacquarelli Symonds(QS) Subject Topics

Materials Science
Chemistry

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10.1002/jrs.3116

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title = "Raman spectroscopy of ZnS nanostructures",

abstract = "We report Raman scattering results of wurtzite ZnS nanowires, nanocombs, and nanobelts. The Raman spectrum obtained from ZnS nanowires exhibits first-order phonon modes at 272, 284, and 350 cm-1, corresponding to A1/E1 transverse optical, E2 transverse optical, and A1/E1 longitudinal optical phonons, respectively. Several multiphonon modes are also observed. The longitudinal optical phonon mode varies in wavenumber for nanocombs and nanobelts, indicating that the residual strain varies during the morphological change from ZnS nanowires to nanocombs and ultimately to nanobelts. Interestingly, a surface optical (SO) phonon mode varies in wavenumber depending on the shape and surface roughness of the ZnS nanostructures. The surface modulation wavelengths of the ZnS nanowires, nanocombs, and nanobelts are estimated using the SO phonon dispersion relations and the observed SO phonon wavenumbers.",

keywords = "nanobelt, nanocomb, nanowire, Raman scattering, ZnS",

author = "Kim, \{J. H.\} and H. Rho and J. Kim and Choi, \{Y. J.\} and Park, \{J. G.\}",

year = "2012",

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volume = "43",

pages = "906--910",

journal = "Journal of Raman Spectroscopy",

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TY - JOUR

T1 - Raman spectroscopy of ZnS nanostructures

AU - Kim, J. H.

AU - Rho, H.

AU - Kim, J.

AU - Choi, Y. J.

AU - Park, J. G.

PY - 2012/7

Y1 - 2012/7

N2 - We report Raman scattering results of wurtzite ZnS nanowires, nanocombs, and nanobelts. The Raman spectrum obtained from ZnS nanowires exhibits first-order phonon modes at 272, 284, and 350 cm-1, corresponding to A1/E1 transverse optical, E2 transverse optical, and A1/E1 longitudinal optical phonons, respectively. Several multiphonon modes are also observed. The longitudinal optical phonon mode varies in wavenumber for nanocombs and nanobelts, indicating that the residual strain varies during the morphological change from ZnS nanowires to nanocombs and ultimately to nanobelts. Interestingly, a surface optical (SO) phonon mode varies in wavenumber depending on the shape and surface roughness of the ZnS nanostructures. The surface modulation wavelengths of the ZnS nanowires, nanocombs, and nanobelts are estimated using the SO phonon dispersion relations and the observed SO phonon wavenumbers.

AB - We report Raman scattering results of wurtzite ZnS nanowires, nanocombs, and nanobelts. The Raman spectrum obtained from ZnS nanowires exhibits first-order phonon modes at 272, 284, and 350 cm-1, corresponding to A1/E1 transverse optical, E2 transverse optical, and A1/E1 longitudinal optical phonons, respectively. Several multiphonon modes are also observed. The longitudinal optical phonon mode varies in wavenumber for nanocombs and nanobelts, indicating that the residual strain varies during the morphological change from ZnS nanowires to nanocombs and ultimately to nanobelts. Interestingly, a surface optical (SO) phonon mode varies in wavenumber depending on the shape and surface roughness of the ZnS nanostructures. The surface modulation wavelengths of the ZnS nanowires, nanocombs, and nanobelts are estimated using the SO phonon dispersion relations and the observed SO phonon wavenumbers.

KW - nanobelt

KW - nanocomb

KW - nanowire

KW - Raman scattering

KW - ZnS

UR - https://www.scopus.com/pages/publications/84864283264

U2 - 10.1002/jrs.3116

DO - 10.1002/jrs.3116

M3 - Journal article

AN - SCOPUS:84864283264

SN - 0377-0486

VL - 43

SP - 906

EP - 910

JO - Journal of Raman Spectroscopy

JF - Journal of Raman Spectroscopy

IS - 7

ER -

Raman spectroscopy of ZnS nanostructures

Abstract

Keywords

Quacquarelli Symonds(QS) Subject Topics

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