Synthesis and Characterization of TiO2 Nanoreservoirs Supported with Platinum II and Sodium Bicarbonate Solution

Abstract: In the past 10 years, the nanoreservoirs to based on TiO2 have taken the lead to develop new and better ways to control and possible "removal" of diseases that have bewildered mankind since its existence. In seeking to contribute to these expectations, at this early stage we synthesized na...

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Veröffentlicht in:材料科学与工程:中英文A版 2015 (1), p.100-108
1. Verfasser: Jose Albino Moreno Rodriguez Genaro Carmona Gutierrez Marco-Antonio Gonzalez Coronell Efrain Rubio Rosas Lilian-Aurora Moreno Rodrlguez Fernando Moreno Rodriguez
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Zusammenfassung:Abstract: In the past 10 years, the nanoreservoirs to based on TiO2 have taken the lead to develop new and better ways to control and possible "removal" of diseases that have bewildered mankind since its existence. In seeking to contribute to these expectations, at this early stage we synthesized nanoreservoirs of TiO2 with sodium bicarbonate solution to 15% (NaHCO3-15/TiO2), with salt of platinum(11) to 0.1% (Pt-0. l/TiO2) and with the NaHCO3 15% and the platinum(If) 0. 1% "in situ" (Pt-0.1 -NaHCO3-15/TiO2) by sol-gel We show that TiO2 and Pt-0.1/TiO2 nanoreservoirs are amorphous. While the NaHCO3-15/TiO2 and the Pt-0.l-NaHCO3-15/TiO2 nanoreservoirs are crystalline. The NaHCOa-15/TiO2 and Pt-0.1-NaCO3-15/TiO2 nanoreservoirs are crystalline because to transformation of the sodium bicarbonate (NaHCO3) to trona phase. The trona phase increases the average particle size of the Pt-0.1-NaCO3-15/TIO2 nanoreservoirs of 180 nm to 130 nm (NaHCO3-15/TIO2). The nanoreservoirs doped with platinum decreases the particle s
ISSN:2161-6213