Laser ablation of silicon monoxide and titanium monoxide in liquid: formation of mixed colloidal dispersion with photocatalytic activity

Silica-titania mixed oxides and composites have been extensively studied, whereas to the titanium monoxide (TiO) -silicon monoxide (SiO) counterparts has been devoted very little attention. Laser ablation of SiO and TiO in liquids is in according with literature completely unexplored. Here we report...

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Bibliographic Details
Published in:Journal of physics. Conference series 2020-04, Vol.1527 (1), p.12046
Main Authors: Vála, Lukáš, Vavruňková, Veronika, Jandová, Věra, Křenek, Tomáš
Format: Article
Language:English
Subjects:
Ablation
Agglomerates
Amorphous silicon
Anatase
Catalytic activity
Colloids
Crystal structure
Crystallinity
Disproportionation
Ethanol
Laser ablation
Lasers
Low temperature
Methylene blue
Mixed oxides
Morphology
Nanoparticles
Neodymium lasers
Particle size distribution
Photocatalysis
Photon correlation spectroscopy
Raman spectroscopy
Silicides
Silicon dioxide
Substrates
Titanium
Titanium oxides
YAG lasers
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Summary:Silica-titania mixed oxides and composites have been extensively studied, whereas to the titanium monoxide (TiO) -silicon monoxide (SiO) counterparts has been devoted very little attention. Laser ablation of SiO and TiO in liquids is in according with literature completely unexplored. Here we report on Nd:YAG pulse laser ablation of SiO and TiO in ethanol which allows generation of SiO- and TiO-based nanoparticles and their agglomerates.Mixed SiO-TiO colloid has been prepared by simple mixing of ablatively prepared individual colloids in 1:1 volume ratio. Measurement of size distribution by Dynamic Light Scattering (DLS) determines sizes of 24.85 nm and 262.3 nm for SiO colloid, 494.8 nm for TiO colloid and 35.2 nm and 397.5 nm for mixed colloid. Zeta potential values suggest incipient instability for all measured systems. Morphology of the particles captured on Ta substrate by evaporation of ethanol was studied using Scanning Electron Microscopy (SEM). Round-shaped, oval, and sheet-like particles and their agglomerates have been observed. Raman spectroscopy of the mixed SiO-TiO colloid revealed multiphase structure consisting of anatase and/or rutile, crystalline and amorphous silicon and silica and crystalline and amorphous titanium silicide TiSi2. Formation of TiSi2 demonstrates unexpected low temperature disproportionation of SiO and TiO-based species and mutual reducing interactions. Catalytic activity of individual SiO and TiO colloids and of their mixture has been tested in terms of methylene blue (MB) degradation under the daylight. TiO-SiO mixture exhibits higher solar-light catalytic activity compared to individual colloids which could by explain by the presence of highly photocatalytic TiSi2. These results represent potential of SiO and TiO reducing interactions which are favorable for generation of photocatalytic materials for water remediation.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1527/1/012046