Thermal reactions in mixtures of micron-sized silicon monoxide and titanium monoxide: redox paths overcoming passivation shells
Titanium monoxide
hifh-temperature
titanium monoxide
High-temperature
02 engineering and technology
Silicon monoxide
7. Clean energy
silicon monoxide
Oxygen-transfer reactions
Methylene blue depletion
Titanium silicide
Titanium suboxides
0210 nano-technology
DOI:
10.1007/s11164-017-3116-z
Publication Date:
2017-08-24T01:59:30Z
AUTHORS (8)
ABSTRACT
Silica–titania mixed oxides and composites have been extensively studied, whereas the titanium monoxide (TiO)–silicon monoxide (SiO) counterparts still remain to be explored. Here, we report on structural changes in heated SiO–TiO mixtures. The changes in composition in intimately mixed μm-sized particles of TiO and SiO heated at 1000 °C were examined by FTIR, UV–Vis and Raman spectroscopy, X-ray diffraction and electron (SEM and TEM) microscopy. They are shown to involve depletion of crystalline TiO and formation of titanium suboxides (Ti2.5O3, Ti2O3), rutile, elemental silicon, titanium silicide Ti5Si3 and amorphous binary SiO x , TiO x and ternary Si x Ti y O z nano-structures. These constituents of the developed Si/Ti/O composite are explained by SiO disproportionation, reduction of TiO by silicon, oxygen transfer (redox) reactions between TiO x and SiO x species and the combination of Ti and Si to obtain titanium silicide. The produced Si/Ti/O composite absorbs visible light and its solar-light photocatalytic activity in decolorization of methylene bBlue is compared to that of the unheated SiO, TiO and Ti5Si3 powders.
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