Color control of white photoluminescence from carbon-incorporated silicon oxide

Ishikawa, Yukari; Vasin, A. V.; Salonen, Jarno; Muto, Shinichi; Lysenko, V. S.; Nazarov, A. M.; Shibata, Noriyoshi; Lehto, Vesa‐Pekka

doi:10.1063/1.3003079

Cited by 44 publications

(37 citation statements)

References 15 publications

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“…This behavior could be attributed to the existence of SiC x or SiC x O y nanoclusters, which have been proposed as the luminescence source in C-doped silicon oxides. 11 If the average size of SiC x clusters becomes smaller when annealed in O 2 , and as expected from quantum confinement effect, photon energies of associated optical transitions would blueshift. But oxidation of SiC x is unlikely to occur as low as 500°C, due to the strength of Siu C bonds.…”

mentioning

confidence: 99%

White light emission from amorphous silicon oxycarbide (a-SiCxOy) thin films: Role of composition and postdeposition annealing

Gallis¹,

Nikas²,

Suhag³

et al. 2010

Applied Physics Letters

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The effects of carbon and postdeposition annealing on white luminescence are studied in amorphous silicon oxycarbide (a-SiCxOy) films grown by chemical vapor deposition. The films showed strong room-temperature luminescence in a broad spectral range from blue-violet to near infrared, depending on excitation energy. Photoluminescence (PL) intensity exhibited good correlation with SiOC bond concentration. At low C (<5%), matrix PL was completely quenched after annealing in O2 even at 500 °C. PL was unaffected by O2 annealing at higher C, and could be enhanced when excited by an ultraviolet laser. These findings are correlated to C- and Si-related O defect centers as luminescence sources in a-SiCxOy.

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mentioning

confidence: 99%

White light emission from amorphous silicon oxycarbide (a-SiCxOy) thin films: Role of composition and postdeposition annealing

Gallis¹,

Nikas²,

Suhag³

et al. 2010

Applied Physics Letters

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“…By analogy with Refs. [20] and [21] and our PL results described in the previous part, the origin of the broad EL band in our structure can be attributed to radiative transitions of the electronic states associated with C SiO  bonds or carbon nanoclusters. Additionally, some contribution of the light emission associated with the excitation of non-bridging oxygen hole centers can be expected around 620 nm [24].…”

Section: Electroluminescencementioning

confidence: 66%

“…The nature of the wide broad PL band is unclear up to date. But it can be suggested that in green-red region the PL can be associated with amorphous carbon nanoclusters [19,20] and/or carbon-related defects [21]. Some part of the PL band in blue region could be attributed to luminescence from defects located in silicon dioxide matrix such as neutral oxygen vacancies [22].…”

Section: Photoluminescencementioning

confidence: 99%

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Electroluminescent properties of Tb-doped carbon-enriched silicon oxide

Tiagulskyi¹

2014

Semicond. Phys. Quantum Electron. Optoelectron.

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Abstract. An electroluminescent device utilizing a heterostructure of amorphous terbium doped carbon-rich SiO x (a -SiO x : C : Tb) on silicon has been developed. The a -SiO x : C : Tb active layer was formed by RF magnetron sputtering of a -SiO 1-x : C x : H(:Tb) film followed by high-temperature oxidation. It was shown that, depending on the polarity of the applied voltage, the electroluminescence is either green or white, which can be attributed to different mechanisms of current transport through the oxide film -space charge limited bipolar double injection current for green electroluminescence and trap assisted tunneling or Fowler-Nordheim tunneling for white electroluminescence.

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“…Recently, it has been demonstrated that carbon incorporated silicon oxide nanostructured materials exhibit a strong white photoluminescence (PL). Intriguing is that white PL was demonstrated by SiOC materials fabricated by quite different methods, namely: SiOC thin films deposited by thermal chemical vapor deposition (TCVD) [1], atmospheric pressure microplasma jet deposition [2], magnetron sputtering deposition [3], C + implantation into SiO 2 [4][5][6], chemical vapor deposition technique [7], carbonization/oxidation of porous silicon [8,9], sol-gel method [10].…”

Section: Introductionmentioning

confidence: 99%

Photoluminescent properties of oxidized stochiometric and carbon-rich amorphous Si1-xCx:H films

Vasin¹

2015

Semicond. Phys. Quantum Electron. Optoelectron.

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Abstract. Near-stochiometric and carbon-rich a-Si 1−x C x :H thin films were deposited using the magnetron sputtering of Si target in Ar/CH 4 gas mixture. As-deposited nearstochimetric (x = 0.5) sample showed weak blue photoluminescence (PL), while PL of as-deposited carbon-rich (x = 0.7) sample was 20 times stronger and white in color. The films were annealed in pure argon, wet argon, and dry oxygen at 450 °C for 30 min. The intensity of PL in a-Si 1−x C x :H layers were enhanced by the factor from 2 to 12 after annealing in dependence on the annealing atmosphere. The strongest oxidation and strongest light emission were observed in carbon-rich series (x = 0.7) after annealing in oxidizing atmosphere. Structural properties of the films were characterized by infra-red absorption spectroscopy, ellipsometry and electron paramagnetic resonance. The effect of carbon enrichment of a-Si 1−x C x :H films and annealing atmosphere on the evolution of photoluminescence and local interatomic bonding structure in annealed material were studied and analyzed. It has been found that main effects of thermal treatments is strong enhancement of photoluminescence accompanied by formation of Si:C-H n and Si-O x C y bonding. The strongest oxidation effect as well as strongest photoluminescence were observed in carbon-rich a-SiC:H films.

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Color control of white photoluminescence from carbon-incorporated silicon oxide

Cited by 44 publications

References 15 publications

White light emission from amorphous silicon oxycarbide (a-SiCxOy) thin films: Role of composition and postdeposition annealing

White light emission from amorphous silicon oxycarbide (a-SiCxOy) thin films: Role of composition and postdeposition annealing

Electroluminescent properties of Tb-doped carbon-enriched silicon oxide

Photoluminescent properties of oxidized stochiometric and carbon-rich amorphous Si1-xCx:H films

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