Optical luminescence from alkyl-passivated Si nanocrystals under vacuum ultraviolet excitation: Origin and temperature dependence of the blue and orange emissions

Chao, Yimin; Houlton, Andrew; Horrocks, Ben; Hunt, Michael; Poolton, N.R.J.; Yang, Jun; Šiller, Lidija

doi:10.1063/1.2216911

Cited by 42 publications

(41 citation statements)

References 45 publications

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“…Sham et al [38] measured X-ray excited optical luminescence (XEOL) and X-ray emission spectroscopy (XES) on silicon nanowires and showed that the blue emission is associated with the silicon oxide layer on the samples. This suggests that the blue PL emission is from oxidized Si species and the red PL emission originates from unoxidized Si core, which is in agreement with the previous results from alkyl Si-QDs [26]. It should be noted that the PL colour will be dominated by the main peak 604 nm here, which is red.…”

Section: Photoluminescence Spectroscopysupporting

confidence: 91%

“…The motivation behind this work is twofold: over the course of exposure the QDs are observed to undergo a photon-induced oxidation, based on the evolution of the Si2p core level, and so is of interest from a purely investigative perspective in furthering our understanding of their luminescence behaviour. Similar photon-oxidation effects have been observed in light-emitting porous silicon [23], germanium nanocrystals [24], alkylated silicon nanocrystals [25,26], and crystalline silicon surfaces [27,28], where the photon source was either a laser, UV, EUV/VUV, or X-rays. This work is of particular value owing to the ability to disperse acrylic acid grafted Si-QDs in water which may offer new routes towards bio-imaging applications within living systems.…”

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confidence: 55%

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Soft X‐ray induced oxidation on acrylic acid grafted luminescent silicon quantum dots in ultrahigh vacuum

Chao

Wang

Pietzsch

et al. 2011

Physica Status Solidi (a)

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Water soluble acrylic acid grafted luminescent silicon quantum dots (Si-QDs) were prepared by a simplified method. The resulting Si-QDs dissolved in water and showed stable strong luminescence with peaks at 436 and 604 nm. X-ray photoelectron spectroscopy (XPS) was employed to examine the surface electronic states after the synthesis. The co-existence of the Si2p and C1s core levels infers that the acrylic acid has been successfully grafted on the surface of silicon quantum dots. To fit the Si2p spectrum, four components were needed at 99.45, 100.28, 102.21 and 103.24 eV. The first component at 99.45 eV (I) was assigned to Si-Si within the silicon core of the Si-QDs. The second component at 100.28 eV (II) was from Si-C. The third at 102.21 eV (III) was a sub-oxide state and the fourth at 103.24 eV (IV) was from SiO 2 at Si-QDs surface. With an increase in exposure to soft X-ray photons, the intensity ratio of the two peaks within the Si2p region A and B increased from 0.5 to 1.4 while the peak A intensity decreased, and eventually a steady state was reached. This observation is explained in terms of photon-induced oxidation taking place within the surface dangling bonds. As the PL profile for Si-QDs is influenced by the degree of oxidation within the nanocrystal structure, the inducement of oxidation by soft X-rays will play a role in the range of potential applications where such materials could be used -especially within biomedical labelling.

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Section: Photoluminescence Spectroscopysupporting

confidence: 91%

supporting

confidence: 55%

Soft X‐ray induced oxidation on acrylic acid grafted luminescent silicon quantum dots in ultrahigh vacuum

Chao

Wang

Pietzsch

et al. 2011

Physica Status Solidi (a)

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“…In order to investigate the detailed temperaturedependent behavior of Si NCs further, temperature quenching spectra were obtained by Chao et al [64] with 21 eV excitation energy as the temperature was increased at a rate of 15 K min À1 (Figure 10). The monochromator for the detector, a photomultiplier tube (PMT), was set at blue and orange wavelengths, 420 AE 10 nm (blue) and 610 AE 10 nm.…”

Section: Origin Of the Orange And Blue Pl Emissionmentioning

confidence: 99%

“…Higher-resolution images were obtained by STM on alkylated n-Si (111) substrates in which individual Si NCs could be resolved within the islands. If the source temperature was set to 200 C, the mean diameter of the Si cores was 1.8 AE 0.34 nm for the evaporated material compared to 2.2 AE 0.38 nm for as-prepared alkyl-Si NCs [12,64,71]. The ability to evaporate and deposit NCs in ultrahigh vacuum (UHV) should be useful for the size-controlled preparation of new nanoscale quantum-confined structures.…”

Section: Floating Gate In Memory Devicesmentioning

confidence: 99%

Optical Properties of Nanostructured Silicon

Chao

2011

Comprehensive Nanoscience and Technology

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“…These are major factors which have helped drive interest in the synthesis and application of SiNPs over the past twenty years (Ahire et al, 2012, Wilson et al, 1993, Kang et al, 2011, Chao et al, 2007. Quantum confinement effects give SiNPs interesting optical, electronic and mechanical properties (Reboredo and Galli, 2005, Pavesi et al, 2000, Chao et al, 2006, O'Farrell et al, 2006, Rosso-Vasic et al, 2008.…”

Section: Introductionmentioning

confidence: 99%

The effect of alkyl chain length on the level of capping of silicon nanoparticles produced by a one-pot synthesis route based on the chemical reduction of micelle

et al. 2013

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ReuseUnless indicated otherwise, fulltext items are protected by copyright with all rights reserved. The copyright exception in section 29 of the Copyright, Designs and Patents Act 1988 allows the making of a single copy solely for the purpose of non-commercial research or private study within the limits of fair dealing. The publisher or other rights-holder may allow further reproduction and re-use of this version -refer to the White Rose Research Online record for this item. Where records identify the publisher as the copyright holder, users can verify any specific terms of use on the publisher's website. TakedownIf you consider content in White Rose Research Online to be in breach of UK law, please notify us by emailing eprints@whiterose.ac.uk including the URL of the record and the reason for the withdrawal request. ABSTRACTSilicon nanoparticles (SiNPs) can be synthesized by a variety of methods. In many cases these routines are non-scalable with low product yields or employ toxic reagents. One way to overcome these drawbacks is to use one-pot synthesis based on the chemical reduction of micelles. In the following study trichloroalkylsilanes of differing chain lengths were used as a surfactant, and the level of capping, surface bonding and size of the nanoparticles formed has been investigated. FTIR results show that the degree of alkyl capping for SiNPs with different capping layers was constant, although SiNPs bound with shorter chains display a much higher level of Si-O owing to the reaction of the ethanol used in the method with uncapped sites on the particle. SiNPs with longer chain length capping show a sharp Si-H peak on the FTIR, these were heated at reflux with the corresponding 1-alkene to fully cap these particles, resulting in a reduction/disappearance of this peak with a minimal change in the intensity of the Si-O peak. Other techniques used to analyze the surface bonding and composition, XPS, 1 H-NMR, and EDX, show that alkyl capped SiNPs have been produced using this method. The optical properties showed no significant change between the different capped SiNPs.

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Optical luminescence from alkyl-passivated Si nanocrystals under vacuum ultraviolet excitation: Origin and temperature dependence of the blue and orange emissions

Cited by 42 publications

References 45 publications

Soft X‐ray induced oxidation on acrylic acid grafted luminescent silicon quantum dots in ultrahigh vacuum

Soft X‐ray induced oxidation on acrylic acid grafted luminescent silicon quantum dots in ultrahigh vacuum

Optical Properties of Nanostructured Silicon

The effect of alkyl chain length on the level of capping of silicon nanoparticles produced by a one-pot synthesis route based on the chemical reduction of micelle

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