Acoustic vibrations of semiconductor nanocrystals in doped glasses

Verma, Prabhat; Cordts, W.; Irmer, G.; Monecke, J.

doi:10.1103/physrevb.60.5778

Cited by 101 publications

(106 citation statements)

References 29 publications

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“…Low-wavenumber Raman scattering by acoustic phonons due to the confinement-related selection rules relaxation in CdSe 1Àx S x nanocrystals was used to estimate the average nanocrystal size [1][2][3][4][5]. Raman spectroscopy was also proven to be a very efficient tool to examine the chemical composition of ternary II-VI nanocrystals diluted in the glass matrix, based on the LO phonon frequencies taking into account the specific effects related to glass matrix pressure, phonon confinement, surface phonon scattering and compositional and size dispersion of nanocrystals within the ensemble [6][7][8][9][10][11][12][13][14][15][16][17][18].…”

mentioning

confidence: 99%

Precipitates of selenium and tellurium in II–VI nanocrystal‐doped glass probed by Raman scattering

Azhniuk

Lopushansky

Hutych

et al. 2011

Physica Status Solidi (b)

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, Phone: þ380 312 643822, Fax: þ380 312 643650As follows from Raman studies, the formation of cadmium chalcogenide nanocrystals in borosilicate glass under thermal treatment at 625-700 8C can be accompanied by precipitation of elemental Se or Te in the form of molecular Se 2 or Te 2 clusters or larger aggregations. The clusters are in most cases formed when the thermal treatment temperature and/or duration values are beyond the range most suitable for the formation of the II-VI nanocrystals. Larger aggregations are formed at intense thermal treatment, precipitation of tellurium being achieved much easier than that of selenium.1 Introduction II-VI (mostly CdSe 1Àx S x ) semiconductor nanocrystal-doped glasses were extensively studied by Raman spectroscopy and the excellent applicability of this technique to determine the nanocrystal parameters was demonstrated. Low-wavenumber Raman scattering by acoustic phonons due to the confinement-related selection rules relaxation in CdSe 1Àx S x nanocrystals was used to estimate the average nanocrystal size [1][2][3][4][5]. Raman spectroscopy was also proven to be a very efficient tool to examine the chemical composition of ternary II-VI nanocrystals diluted in the glass matrix, based on the LO phonon frequencies taking into account the specific effects related to glass matrix pressure, phonon confinement, surface phonon scattering and compositional and size dispersion of nanocrystals within the ensemble [6][7][8][9][10][11][12][13][14][15][16][17][18].Fabrication of II-VI semiconductor nanocrystals in glass matrices is performed by a well-elaborated diffusion-limited growth technique [19][20][21]. Recently Raman scattering studies revealed that not only the nanocrystal size, but also their composition is affected by the growth conditions (thermal treatment temperature and duration) [16,18]. Moreover, it was reported that at certain thermal treatment conditions molecular clusters of selenium can be formed in CdSe and CdSe 1Àx S x nanocrystal-doped glasses [22].

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confidence: 99%

Precipitates of selenium and tellurium in II–VI nanocrystal‐doped glass probed by Raman scattering

Azhniuk

Lopushansky

Hutych

et al. 2011

Physica Status Solidi (b)

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“…The surface quadrupole mode (l ¼ 2) appears in both polarized and depolarized geometry, whereas the surface symmetrical mode (l ¼ 0) appears only in the polarized geometry. The relation between the particle size and the frequency of the polarized acoustic phonon can be established from [446]: sinðxÞ ¼ 4n 2 eff j 1 ðxÞ with complex argument,…”

Section: Introductionmentioning

confidence: 99%

Size dependence of nanostructures: Impact of bond order deficiency

Sun

2007

Progress in Solid State Chemistry

801

706

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“…Many experiments have observed peaks in Raman spectra attributed to acoustic phonon vibrations of silver 8,9,10,11,12,13,14 silicon 15, 16 and CdS x Se 1−x . 17,18,19,20,21 These studies have regularly succeeded in observing the (SPH,2,0) mode and the (SPH,0,0) mode. A number of studies have seen (SPH,0,n) with n up to 4 14 .…”

Section: Discussionmentioning

confidence: 99%

Longitudinal versus transverse spheroidal vibrational modes of an elastic sphere

Saviot

Murray

2005

Phys. Rev. B

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Analysis of the spheroidal modes of vibration of a free continuum elastic sphere show that they can be qualitatively grouped into two categories: primarily longitudinal and primarily transverse. This is not a sharp distinction. However, there is a relatively stark contrast between the two kinds of modes. Primarily transverse modes have a small divergence and have frequencies that are almost functionally independent of the longitudinal speed of sound. Analysis of inelastic light scattering intensity from confined acoustic phonons in nanoparticles requires an understanding of this qualitative distinction between different spheroidal modes. In addition, some common misconceptions about spheroidal modes are corrected.

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Acoustic vibrations of semiconductor nanocrystals in doped glasses

Cited by 101 publications

References 29 publications

Precipitates of selenium and tellurium in II–VI nanocrystal‐doped glass probed by Raman scattering

Precipitates of selenium and tellurium in II–VI nanocrystal‐doped glass probed by Raman scattering

Size dependence of nanostructures: Impact of bond order deficiency

Longitudinal versus transverse spheroidal vibrational modes of an elastic sphere

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