Room-temperature photoluminescence and electroluminescence from Er-doped silicon-rich silicon oxide

Tsybeskov, L.; Duttagupta, S. P.; Hirschman, K.D.; Fauchet, Philippe M.; Moore, Karen L.; Hall, Dennis G.

doi:10.1063/1.118693

Cited by 49 publications

(22 citation statements)

References 14 publications

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“…Moreover, LEDs emitting in the infrared spectral range have also been already achieved based on Er 3þ emission. 7,11,12 Furthermore, promising results have also been obtained for SRSO doped with Nd 3þ ions with strong emission at around 1100 nm. 13 Recently, electroluminescence (EL) of Tb implanted silica thin films in MOS devices with external quantum efficiency as high as 10% 14,15 and EL from a Tb-doped SiN matrix have also been shown.…”

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confidence: 81%

Excitation mechanism and thermal emission quenching of Tb ions in silicon rich silicon oxide thin films grown by plasma-enhanced chemical vapour deposition—Do we need silicon nanoclusters?

Podhorodecki

Golacki

Zatryb

et al. 2014

Journal of Applied Physics

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In this work, we will discuss the excitation and emission properties of Tb ions in a Silicon Rich Silicon Oxide (SRSO) matrix obtained at different technological conditions. By means of electron cyclotron resonance plasma-enhanced chemical vapour deposition, undoped and doped SRSO films have been obtained with different Si content (33, 35, 39, 50 at. %) and were annealed at different temperatures (600, 900, 1100 °C). The samples were characterized optically and structurally using photoluminescence (PL), PL excitation, time resolved PL, absorption, cathodoluminescence, temperature dependent PL, Rutherford backscattering spectrometry, Fourier transform infrared spectroscopy and positron annihilation lifetime spectroscopy. Based on the obtained results, we discuss how the matrix modifications influence excitation and emission properties of Tb ions.

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confidence: 81%

Excitation mechanism and thermal emission quenching of Tb ions in silicon rich silicon oxide thin films grown by plasma-enhanced chemical vapour deposition—Do we need silicon nanoclusters?

Podhorodecki

Golacki

Zatryb

et al. 2014

Journal of Applied Physics

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“…Others have shown that SRSO films produced by oxidation of porous silicon doped electrochemically with erbium show room temperature Er 3ϩ luminescence. 13 Our results suggest that SRSO, by combining the advantages of SiO 2 and a-Si:H:O, may be a more efficient host material for Er than either one alone. We should note that it is likely that the large band gap of SRSO also contributes to the intense Er 3ϩ luminescence, as it was shown that a larger band gap of the host matrix tends to reduce the temperature quenching of the luminescence intensity.…”

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confidence: 91%

“…14 However, as the temperature quenching of Er 3ϩ luminescence from a-Si:H:O ͑Ref. 8͒ and from SRSO produced by oxidation of porous silicon 13 are about equal, the large band gap of SRSO alone cannot explain its greater Er 3ϩ luminescence intensity over a-Si:H:O. SRSO can also luminesce in the visible range if carriers can be confined effectively in the Si nanoclusters. 13 However, a sample without erbium did not show any visible luminescence, indicating that in this case the clusters were either too large or too close together for quantum confinement of carriers to be effective.…”

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confidence: 95%

Composition dependence of room temperature 1.54 μm Er3+ luminescence from erbium-doped silicon:oxygen thin films deposited by electron cyclotron resonance plasma enhanced chemical vapor deposition

Shin

Kim

Seo

et al. 1998

Applied Physics Letters

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Articles you may be interested inOptical gain at 1.54 μm in erbium-doped silicon nanocluster sensitized waveguide Appl. Phys. Lett. 79, 4568 (2001); 10.1063/1.1419035Deposition and 1.54 μm Er 3+ luminescent properties of erbium-doped hydrogenated amorphous silicon thin films by electron cyclotron resonance plasma enhanced chemical vapor deposition of SiH 4 with concurrent sputtering of erbium Assessment of as-deposited microcrystalline silicon films on polymer substrates using electron cyclotron resonance-plasma enhanced chemical vapor deposition

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“…In addition, the Er 3+ -related emission is very sensitive to interactions with the surrounding matrix. Silicon-rich silicon oxides [17,18] and porous silicon [19,20] have been shown to be very effective matrixes for Er doping at high concentrations, exhibiting intense infrared Er luminescence at room temperature. However, the concentration of optically active Er in such matrixes is typically limited to about 1 at% owing to concentration quenching and precipitation [21,22].…”

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confidence: 99%

Infrared luminescence of erbium-silicon-oxide crystalline compound on silicon

Ishiyama

Higuchi

Obata

et al. 2012

2012 IEEE 3rd International Conference on Photonics

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The photoluminescence (PL) properties of crystalline Er-Si-O compound on silicon substrate prepared using a simple method through evaporation and thermal annealing have been investigated. Diffraction peaks corresponding to crystalline Er-Si-O were clearly detected in X-ray diffraction measurements. Er-related infrared luminescence was observed at around 1.52 m at room temperature. This luminescence of the crystalline Er-Si-O compound on Si was due not to direct excitation of the 4f shell of Er 3+ , but to excitation of the host Si, i.e. indirect excitation. The observed luminescence was very intense compared with that of a sample prepared by a wet-chemical method using ErCl 3 . The Er-related PL spectra also showed several peaks at room temperature, which reflected the splitting patterns of ground manifolds ( 4 I 15/2 ) for the 4f 11 shell of Er 3+ . Significant differences in peak wavelengths between the crystalline Er-Si-O compound on Si substrate and Er-doped Si on Si substrate (Si:Er:O/Si) grown by molecular beam epitaxy were observed in the PL spectra at 77 K. In addition, temperature quenching of Er-related infrared luminescence was greatly reduced in the crystalline Er-Si-O compound prepared using the simple method. Finally, a new electron spin resonance spectrum was detected for the crystalline Er-Si-O compound on silicon substrate, thought to be related to the presence of Er atoms in the compound.

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Room-temperature photoluminescence and electroluminescence from Er-doped silicon-rich silicon oxide

Cited by 49 publications

References 14 publications

Excitation mechanism and thermal emission quenching of Tb ions in silicon rich silicon oxide thin films grown by plasma-enhanced chemical vapour deposition—Do we need silicon nanoclusters?

Excitation mechanism and thermal emission quenching of Tb ions in silicon rich silicon oxide thin films grown by plasma-enhanced chemical vapour deposition—Do we need silicon nanoclusters?

Composition dependence of room temperature 1.54 μm Er3+ luminescence from erbium-doped silicon:oxygen thin films deposited by electron cyclotron resonance plasma enhanced chemical vapor deposition

Infrared luminescence of erbium-silicon-oxide crystalline compound on silicon

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