期刊
NANOMATERIALS
卷 13, 期 16, 页码 -出版社
MDPI
DOI: 10.3390/nano13162328
关键词
TiO2; supercritical CO2; semiconductor nanoparticles synthesis; precursor; CO2 photoreduction
The synthesis and characterization of TiO2 nanoparticles in supercritical CO2 medium from different precursors and with different hydrolytic agent/precursor ratios were studied. The physicochemical properties of the catalysts were not significantly affected by these variables, but the catalytic performances showed some differences. Photocatalysts obtained from certain precursors at higher hydrolytic agent/precursor ratios showed higher CO2 photoconversions, attributed to their appropriate crystal size, surface area, light absorption, and charge transfer properties.
The synthesis of TiO2\ nanoparticles (NPs) in supercritical media has been reported over the last two decades. However, very few studies have compared the physicochemical characteristics and photoactivity of the TiO2 powders produced from different precursors, and even fewer have investigated the effect of using different ratios of hydrolytic agent/precursor (HA/P) on the properties of the semiconductor. To bridge this knowledge gap, this research focuses on the synthesis and characterization of TiO2 NPs obtained in a supercritical CO2 medium from four different TiO2 precursors, namely diisopropoxytitanium bis (acetylacetonate) (TDB), titanium (IV) isopropoxide (TIP), titanium (IV) butoxide (TBO), and titanium (IV) 2-ethylhexyloxide (TEO). Further, the effect of various HA/P ratios (10, 20, 30, and 40 mol/mol) when using ethanol as a hydrolytic agent has also been analyzed. Results obtained have shown that the physicochemical properties of the catalysts are not significantly affected by these variables, although some differences do exist between the synthesized materials and their catalytic performances. Specifically, photocatalysts obtained from TIP and TEO at the higher HA/P ratios (HA/P = 30 and HA/P = 40) led to higher CO2 photoconversions (6.3-7 mu mol center dot g(-) (1)center dot h(-1), Apparent Quantum Efficiency < 0.1%), about three times higher than those attained with commercial TiO2 P-25. These results have been imputed to the fact that these catalysts exhibit appropriate values of crystal size, surface area, light absorption, and charge transfer properties.
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