Sn-loss effect in a Sn-implanted a-SiO2 host-matrix after thermal annealing: A combined XPS, PL, and DFT study

Zatsepin, D. A.; Zatsepin, A. F.; Boukhvalov, Danil W.; Kurmaev, E.Z.; Гаврилов, Н. В.

doi:10.1016/j.apsusc.2016.01.126

Cited by 37 publications

(16 citation statements)

References 40 publications

(62 reference statements)

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“…On the first look the appearance of Cu 0 means Cu-losses from the ion-beam stimulated synthesis and modulation of Cx-TiO 2 microstructure (this effect was established earlier by the other researchers even for amorphous hosts [59,60] and in our previous findings [61,62]), but, what might be really interesting in our humble opinion, it is accompanied by embedded metal treating of oxygen vacancies (see, for instance, Ref. [63,64]), and this occurred one more time with the current samples even under sequential and relatively soft (regarding applied mode) ion-beam stimulated synthesis.…”

Section: Resultssupporting

confidence: 73%

Enhanced clustering tendency of Cu-impurities with a number of oxygen vacancies in heavy carbon-loaded TiO2 - the bulk and surface morphologies

Zatsepin

Boukhvalov

Kurmaev

et al. 2017

Solid State Sciences

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The over threshold carbon-loadings (~ 50 at.%) of initial TiO 2 -hosts and posterior Cu-sensitization (~ 7 at.%) was made using pulsed ion-implantation technique in sequential mode with 1 hour vacuumidle cycle between sequential stages of embedding. The final Cx-TiO 2 :Cu samples were qualified using XPS wide-scan elemental analysis, core-levels and valence band mappings. The results obtained were discussed on the theoretic background employing DFT-calculations. The combined XPS-and-DFT analysis allows to establish and prove the final formula of the synthesized samples as Cx-

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Section: Resultssupporting

confidence: 73%

Enhanced clustering tendency of Cu-impurities with a number of oxygen vacancies in heavy carbon-loaded TiO2 - the bulk and surface morphologies

Zatsepin

Boukhvalov

Kurmaev

et al. 2017

Solid State Sciences

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“…The peaks centered at 486.65 eV, 486.77 eV, and 486.58 eV correspond to the Sn5/2 peaks, which were obtained in blank solution, with 10 −4 M Cys and with 10 −2 M Cys, respectively (Figure 7b). In all cases, the peak values correspond to ionic tin (Sn 4+ ) [39,[52][53][54][55][56], which may indicate the formation of the compound of Sn on the alloy surface, meaning, therefore, the contribution of Sn 2+ to the surface film should not be ignored. In addition to the main Sn3d peaks, satellite peaks at higher binding energies of 499.05 and 499.08 eV appear for the blank and the surface-inhibited surface with lower Cys concentration (10 −4 M), respectively, which may be attributed to the presence of more tin ion contents on the alloy surface [57].…”

Section: Xps and Auger Resultsmentioning

confidence: 99%

The Protection Role of Cysteine for Cu-5Zn-5Al-1Sn Alloy Corrosion in 3.5 wt.% NaCl Solution

et al. 2019

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In this work, the corrosion mechanism of a Cu-5Zn-5Al-1Sn alloy was examined in a 3.5 wt.% NaCl solution. At the same time, the effect of a cysteine inhibitor was also investigated through a multi-analytical approach. Electrochemical results suggested that inhibition efficiency increased with the increase of cysteine concentration. From potentiodynamic polarization (PD) analysis, a decrease in corrosion current and corrosion potential shift toward a more negative direction was observed. The potential difference between the blank and inhibited surface was found to be 46 mV, which is less than 85 mV, revealing a mixed type inhibition effect of cysteine for the Cu-5Zn-5Al-1Sn alloy. The inhibition mechanism of cysteine (Cys) and the effect of alloying elements were investigated by fitting experimental impedance data according to a projected equivalent circuit for the alloy/electrolyte interface. A Langmuir adsorption isotherm was proposed to explain the inhibition phenomenon of cysteine on the Cu-5Zn-5Al-1Sn alloy surface. Surface morphology observation confirmed that the Cu-5Zn-5Al-1Sn alloy was damaged in 3.5 wt.% NaCl solution and could be inhibited by using the cysteine inhibitor. The impact of alloying elements on the corrosion mechanism was further examined by surface analysis techniques such as X-Ray photoelectron spectroscopy (XPS)/Auger spectra, the results of which indicated that the corrosion inhibition was realized by the adsorption of the inhibitor molecules at the alloy/solution interface. Appl. Sci. 2019, 9, 3896 2 of 17 latter largely present at the outmost surface of both Cu and the Cu5Zn5Al1Sn alloy [7,11]. Although a big difference exists in their corrosion rates, the corrosion process is highly administered by the molecular diffusion between the metal surface and the electrolyte [12].One approach to prevent corrosion of Cu and its alloy is the use of corrosion inhibitors [13,14]. Among the corrosion inhibitors used in practice, cysteine (Cys) is found to be widely employed for Cu protection in various media [15,16]. Cysteine is an amino acid that contains a -SH group in addition to the amino group; this mercaptan group is strongly attracted to copper. A. A. Nazeer et al. have studied the inhibitive effect of cysteine on a Cu10Ni alloy in sulfide containing atmospheres [16]. Based on this study, cysteine can act as a mixed-type inhibitor and cysteine molecules are adsorbed on the alloy surface. The inhibition mechanism of cysteine with copper-based materials is characterized by the formation of a stable Cu (I)-cysteine complex [17]. As confirmed by many researchers, the better corrosion inhibition effect of cysteine relies on its surface adsorption through sulfur atoms [18,19]. I. Milošev et al. on the other hand have studied different amino acids as inhibitors for copper in acidic environments and confirmed that cysteine has higher efficiency. Based on their molecular dynamic simulation results, it has been suggested that the -SH group is in charge of the good protective effect of cysteine [20...

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“…At present, adding optical functionality to a silicon microelectronic chip is one of the most challenging problems of materials research. Thereby, considerable efforts have been focused on the enhancement of UV and visible emission from silica to create an active lightemitting element in next-generation miniature optoelectronic devices [1][2][3][4][5][6][7][8][9][10][11][12]. In spite of typical optoelectronic's operation in IR range, the creation of such silica-based emitters operating in both the visible and UV-violet spectral ranges is a perspective for creating a microminiature MOS light-emitting diode (LED), Bragg reflectors, waveguide lasers, and optocouplers as well as optical switchers in color microdisplay devices.…”

Section: Introductionmentioning

confidence: 99%

“…In spite of typical optoelectronic's operation in IR range, the creation of such silica-based emitters operating in both the visible and UV-violet spectral ranges is a perspective for creating a microminiature MOS light-emitting diode (LED), Bragg reflectors, waveguide lasers, and optocouplers as well as optical switchers in color microdisplay devices. To fabricate a low-cost effective silicabased LED, the ion implantation approach seems quite promising because of well-controlled impurity atom distribution and/or impurity-based nanocrystal formation, good passivation from ambient condition, and excellent compatibility with Si MOS processes [1][2][3][4][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

“…Considering the complicated phase composition as well as the presence of different radiative and nonradiative centers in Sn-implanted films, the deep analysis of structural and luminescence properties depending on the regime of implantation and subsequent annealing is needed. In spite of a number of publications devoted to silicon oxide films implanted with Sn ions [1][2][3][4][10][11][12], the influence of implantation fluence on their structure and luminescence was studied insufficiently. In this paper, we report the structural and light-emitting properties of "SiO 2 +Sn-based NC" composites created by means of Sn + implantation with two different fluences into SiO 2 on Si followed by oxidation in ambient air.…”

Section: Introductionmentioning

confidence: 99%

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Structural Evolution and Photoluminescence of SiO₂ Layers with Sn Nanoclusters Formed by Ion Implantation

Romanov

Komarov

Milchanin

et al. 2019

Journal of Nanomaterials

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Samples of SiO2 (600 nm)/Si have been implanted with Sn ions (200 keV, 5×1016 cm−2 and 1×1017 cm−2) at room temperature and afterwards annealed at 800 and 900°C for 60 minutes in ambient air. The structural and light emission properties of “SiO2+Sn-based nanocluster” composites have been studied using Rutherford backscattering spectroscopy, transmission electron microscopy in cross section and plan-view geometry, electron microdiffraction, and photoluminescence (PL). A strict correspondence of Sn concentration profiles and depth particle distributions has been found. In the case of 1×1017 cm−2 fluence, the impurity accumulation in the subsurface zone during the thermal treatment leads to swelling and to the formation of dendrites composed of large and coalesced nanoparticles of grey contrast. The appearance of dendrites is most probably due to the SnO2 phase formation. The as-implanted samples are characterized by a weak emission with maximum at the blue range (2.9 eV). The PL intensity increases by an order of magnitude after annealing in an oxidizing atmosphere. The narrowest and most intense PL band has maximum at 3.1 eV. Its intensity increases with increasing fluence and annealing temperature. This emission can be attributed to the formation of the SnO2 phase (in the form of separate clusters or shells of Sn clusters) in the subsurface region of the SiO2 matrix.

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Sn-loss effect in a Sn-implanted a-SiO2 host-matrix after thermal annealing: A combined XPS, PL, and DFT study

Cited by 37 publications

References 40 publications

Enhanced clustering tendency of Cu-impurities with a number of oxygen vacancies in heavy carbon-loaded TiO2 - the bulk and surface morphologies

Enhanced clustering tendency of Cu-impurities with a number of oxygen vacancies in heavy carbon-loaded TiO2 - the bulk and surface morphologies

The Protection Role of Cysteine for Cu-5Zn-5Al-1Sn Alloy Corrosion in 3.5 wt.% NaCl Solution

Structural Evolution and Photoluminescence of SiO₂ Layers with Sn Nanoclusters Formed by Ion Implantation

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Sn-loss effect in a Sn-implanted a-SiO2 host-matrix after thermal annealing: A combined XPS, PL, and DFT study

Cited by 37 publications

References 40 publications

Enhanced clustering tendency of Cu-impurities with a number of oxygen vacancies in heavy carbon-loaded TiO2 - the bulk and surface morphologies

Enhanced clustering tendency of Cu-impurities with a number of oxygen vacancies in heavy carbon-loaded TiO2 - the bulk and surface morphologies

The Protection Role of Cysteine for Cu-5Zn-5Al-1Sn Alloy Corrosion in 3.5 wt.% NaCl Solution

Structural Evolution and Photoluminescence of SiO2 Layers with Sn Nanoclusters Formed by Ion Implantation

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Structural Evolution and Photoluminescence of SiO₂ Layers with Sn Nanoclusters Formed by Ion Implantation