Atomic-scale investigation on the evolution of Tio2-anatase prepared by a sonochemical route and treated with NaOH

Berenice Victoria Dimas; Isaías Hernández Pérez; Vicente Garibay Febles; Lucía Díaz Barriga Arceo; Raúl Suárez Parra; Jesús Noé Rivera Olvera; Ricardo Luna Paz; Dulce Viridiana Melo Máximo; Leonardo González Reyes

doi:10.3390/ma13030685

Atomic-scale investigation on the evolution of Tio₂-anatase prepared by a sonochemical route and treated with NaOH

Berenice Victoria Dimas, Isaías Hernández Pérez, Vicente Garibay Febles, Lucía Díaz Barriga Arceo, Raúl Suárez Parra, Jesús Noé Rivera Olvera, Ricardo Luna Paz, Dulce Viridiana Melo Máximo, Leonardo González Reyes

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8 Scopus citations

Abstract

To date, the formation mechanisms of TiO₂, as well as its heterostructures, have not been clarified. Moreover, detailed research on the transition from a tetragonal anatase phase to the monoclinic phase of the TiO₂(B) phase and their interface structure has been quite limited until now. In the present study, we report on the sonochemical synthesis of TiO₂-anatase with a crystallite size of 5.2 ± 1.5 nm under different NaOH concentrations via the hydrothermal method. The use of alkaline solution and the effect of the temperature and reaction time on the formation and structural properties of TiO₂-anatase nanopowders were studied. The effects of NaOH concentration on the formation and transformation of titanate structures are subject to thermal effects that stem from the redistribution of energy in the system. These mechanisms could be attributed to three phenomena: (1) the self-assembly of nanofibers and nanosheets, (2) the Ostwald ripening process, and (3) the self-development of hollow TiO₂ mesostructures.

Original language	English
Article number	685
Journal	Materials
Volume	13
Issue number	3
DOIs	https://doi.org/10.3390/ma13030685
State	Published - 1 Feb 2020
Externally published	Yes

Keywords

Electron microscopy
Metal oxides
Sonochemistry

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title = "Atomic-scale investigation on the evolution of Tio2-anatase prepared by a sonochemical route and treated with NaOH",

abstract = "To date, the formation mechanisms of TiO2, as well as its heterostructures, have not been clarified. Moreover, detailed research on the transition from a tetragonal anatase phase to the monoclinic phase of the TiO2(B) phase and their interface structure has been quite limited until now. In the present study, we report on the sonochemical synthesis of TiO2-anatase with a crystallite size of 5.2 ± 1.5 nm under different NaOH concentrations via the hydrothermal method. The use of alkaline solution and the effect of the temperature and reaction time on the formation and structural properties of TiO2-anatase nanopowders were studied. The effects of NaOH concentration on the formation and transformation of titanate structures are subject to thermal effects that stem from the redistribution of energy in the system. These mechanisms could be attributed to three phenomena: (1) the self-assembly of nanofibers and nanosheets, (2) the Ostwald ripening process, and (3) the self-development of hollow TiO2 mesostructures.",

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author = "Dimas, {Berenice Victoria} and P{\'e}rez, {Isa{\'i}as Hern{\'a}ndez} and Febles, {Vicente Garibay} and Arceo, {Luc{\'i}a D{\'i}az Barriga} and Parra, {Ra{\'u}l Su{\'a}rez} and Olvera, {Jes{\'u}s No{\'e} Rivera} and Paz, {Ricardo Luna} and M{\'a}ximo, {Dulce Viridiana Melo} and Reyes, {Leonardo Gonz{\'a}lez}",

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doi = "10.3390/ma13030685",

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T1 - Atomic-scale investigation on the evolution of Tio2-anatase prepared by a sonochemical route and treated with NaOH

AU - Dimas, Berenice Victoria

AU - Pérez, Isaías Hernández

AU - Febles, Vicente Garibay

AU - Arceo, Lucía Díaz Barriga

AU - Parra, Raúl Suárez

AU - Olvera, Jesús Noé Rivera

AU - Paz, Ricardo Luna

AU - Máximo, Dulce Viridiana Melo

AU - Reyes, Leonardo González

PY - 2020/2/1

Y1 - 2020/2/1

N2 - To date, the formation mechanisms of TiO2, as well as its heterostructures, have not been clarified. Moreover, detailed research on the transition from a tetragonal anatase phase to the monoclinic phase of the TiO2(B) phase and their interface structure has been quite limited until now. In the present study, we report on the sonochemical synthesis of TiO2-anatase with a crystallite size of 5.2 ± 1.5 nm under different NaOH concentrations via the hydrothermal method. The use of alkaline solution and the effect of the temperature and reaction time on the formation and structural properties of TiO2-anatase nanopowders were studied. The effects of NaOH concentration on the formation and transformation of titanate structures are subject to thermal effects that stem from the redistribution of energy in the system. These mechanisms could be attributed to three phenomena: (1) the self-assembly of nanofibers and nanosheets, (2) the Ostwald ripening process, and (3) the self-development of hollow TiO2 mesostructures.

AB - To date, the formation mechanisms of TiO2, as well as its heterostructures, have not been clarified. Moreover, detailed research on the transition from a tetragonal anatase phase to the monoclinic phase of the TiO2(B) phase and their interface structure has been quite limited until now. In the present study, we report on the sonochemical synthesis of TiO2-anatase with a crystallite size of 5.2 ± 1.5 nm under different NaOH concentrations via the hydrothermal method. The use of alkaline solution and the effect of the temperature and reaction time on the formation and structural properties of TiO2-anatase nanopowders were studied. The effects of NaOH concentration on the formation and transformation of titanate structures are subject to thermal effects that stem from the redistribution of energy in the system. These mechanisms could be attributed to three phenomena: (1) the self-assembly of nanofibers and nanosheets, (2) the Ostwald ripening process, and (3) the self-development of hollow TiO2 mesostructures.

KW - Electron microscopy

KW - Metal oxides

KW - Sonochemistry

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DO - 10.3390/ma13030685

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JO - Materials

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ER -

Atomic-scale investigation on the evolution of Tio₂-anatase prepared by a sonochemical route and treated with NaOH

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Keywords

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