Codoping n- and p-Type Impurities in Colloidal Silicon Nanocrystals: Controlling Luminescence Energy from below Bulk Band Gap to Visible Range

Sugimoto, Hiroshi; Fujii, Minoru; Imakita, Kenji; Hayashi, Shinji; Akamatsu, Kensuke

doi:10.1021/jp4027767

Cited by 130 publications

(258 citation statements)

References 40 publications

(90 reference statements)

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“…It decreases gradually to smaller size and rapidly to larger size. 49 In Figure 2, C1050 exhibits PL around 1.7 eV, while C1200 exhibits it around 1.2 eV. The size dependence of the PL energy is consistent with the previous work.…”

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confidence: 89%

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Energy Transfer in Silicon Nanocrystal Solids Made from All-Inorganic Colloidal Silicon Nanocrystals

Furuta

Fujii

Sugimoto

et al. 2015

J. Phys. Chem. Lett.

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Energy transfer between silicon (Si) nanocrystals (NCs) in Si-NC solids was demonstrated by photoluminescence (PL) spectroscopy. Clear differences of PL spectra and the decay rates between solutions and solids of Si-NCs were observed. The change in the PL properties caused by the formation of solids could be explained by the energy transfer from small to large NCs in the size distribution. In order to obtain further evidence of NC-to-NC energy transfer, the size distribution was intentionally modified by mixing solutions of NCs with different size distributions. NC solids made from the mixed solutions exhibited significantly different PL spectral shape and decay rates from those made from unmixed solutions, providing clear evidence of NC-to-NC energy transfer in Si-NC solids.

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confidence: 89%

“…The PL properties of B and P codoped Si-NCs have been studied in detail previously. 49 The PL energy depends strongly on the size and increases with decreasing the size. The PL energy of codoped Si-NCs is always 200 to 300 meV smaller than that of undoped Si-NCs with identical sizes, and the lifetime is shorter than that of undoped ones.…”

mentioning

confidence: 99%

Energy Transfer in Silicon Nanocrystal Solids Made from All-Inorganic Colloidal Silicon Nanocrystals

Furuta

Fujii

Sugimoto

et al. 2015

J. Phys. Chem. Lett.

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“…In particular, it has been evidenced that in small Si-NCs (size ∼3 nm) surface oxidation produces localized states at Si O Si bridge or Si O double bonds which favor the enhancement of the red emission [21,22]. Also the doping is expected to influence the PL properties; a recent work has indeed pointed out that n-and p-type codoping introduces donor and acceptor states that lower the PL energy transition [23]. Regardless its origin, we note that the peak position at 1.95 eV agrees with the QC effect.…”

Section: Resultsmentioning

confidence: 99%

Luminescent silicon nanocrystals produced by near-infrared nanosecond pulsed laser ablation in water

Vaccaro

Sciortino

Messina

et al. 2014

Applied Surface Science

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a b s t r a c tWe report the investigation of luminescent nanoparticles produced by ns pulsed Nd:YAG laser ablation of silicon in water. Combined characterization by AFM and IR techniques proves that these nanoparticles have a mean size of ∼3 nm and a core-shell structure consisting of a Si-nanocrystal surrounded by an oxide layer. Time resolved luminescence spectra evidence visible and UV emissions; a band around 1.9 eV originates from Si-nanocrystals, while two bands centered at 2.7 eV and 4.4 eV are associated with oxygen deficient centers in the SiO 2 shell.

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“…et al, 2006;Sugimoto H. et al, 2013). When particle size is controlled, NPs can be applied in sensors (Anker J.N.…”

Section: Introductionmentioning

confidence: 99%

Size-Selective Separation Techniques for Nanoparticles in Liquid

Mori

2015

KONA

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The many characteristics of nanoparticles (NPs) depend on their size and size distribution. When novel functions of NPs are attempted, it is necessary to monodisperse or nearly monodisperse NPs. Many synthesis methods have been proposed from solution-based chemistry to satisfy this demand. Despite such special techniques to prepare NPs, it is often the case that an additional classification procedure is needed to a certain extent to obtain monodispersed NPs, similar to other general precipitation methods used in NP preparation. Additionally, NPs must be purified post-synthesis to remove by-products. Hence, size-selective separation as post-synthesis operation is expected to become increasingly important. In this review, some recent developments of sizeselective separation methods for NPs based on using external fields, filtration, and the stability of the colloid system are highlighted.

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Codoping n- and p-Type Impurities in Colloidal Silicon Nanocrystals: Controlling Luminescence Energy from below Bulk Band Gap to Visible Range

Cited by 130 publications

References 40 publications

Energy Transfer in Silicon Nanocrystal Solids Made from All-Inorganic Colloidal Silicon Nanocrystals

Energy Transfer in Silicon Nanocrystal Solids Made from All-Inorganic Colloidal Silicon Nanocrystals

Luminescent silicon nanocrystals produced by near-infrared nanosecond pulsed laser ablation in water

Size-Selective Separation Techniques for Nanoparticles in Liquid

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