A Lazo scite author profile

It is known that the optical absorption property of a material is linked to its crystal structure. Therefore, it can be modified or displaced when the material is subjected to thermal treatments, generating displacements of the unit cell, atomic positions and bond angles of its atoms. In this work, the analysis of three samples of BiFeO3 powders subjected to different heat treatment temperatures was carried out to study their optical properties by analyzing the crystal structure, diffuse reflectance, Raman scattering spectroscopy, density of state and band structure. In the results, the pure phase and the hexagonal structure of the samples were identified, showing an increase in the angles between the Fe-O-Fe atoms when the material is thermally treated. The band gap (Egexperimental) of the BiFeO3 samples without and with treatment temperature showed direct and indirect transitions according to the Tauc equation, these values were 2.36, 2.11 and 2.19 eV for direct band gaps and 2.10, 1.58 and 1.85 eV for indirect band gaps. In the Raman scattering spectroscopy analysis, overtones were observed in the samples when a green laser with a wavelength of 532nm (2.33 eV) was applied. In the density of states, the maximum valence band formed by the O(2p) state and the minimum of the conduction band formed by the hybridization of the Fe(3d) and O(2p) states were identified. In the electronic band structure, indirect band gap values (Egtheoretical) of 2.274, 2.216 (500 °C) and 2.217 eV (600 °C) were found for the samples without and with heat treatment. It is concluded that BiFeO3 absorbs visible light and that its band gap can decrease by increasing the bond angle of Fe-O-Fe atoms when the sample is subjected to heat treatment. These results demonstrate the semiconductor property of BiFeO3 and can be applied to solar cells, batteries, hydrogen production, among other applications.

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Synthesis of YBCO superconductor by the method of combustion reaction in solution

Rodríguez

Lazo

2018

J. Phys.: Conf. Ser.

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Síntesis De Yaio3 (Yap) Policristalino Por El Método De Combustión en Solución

Lazo

Paucarchuco

Loro

2018

TECNIA

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RESUMENSe presenta el método de combustión en solución y su aplicación para la síntesis de YAlO 3 (YAP), fueron usados como combustibles para la reacción de combustión y síntesis la urea y glicina, del YAP. Usando las técnicas de difracción de rayos X (XRD) por el método del polvo y microscopia electrónica de barrido (MEB) fueron analizadas la parte estructural y morfológica de las muestras obtenidas. Los difractogramas de Rayos X muestran una excelente correspondencia con lo reportado en la literatura para este material. Se suministran también los resultados de las muestras de material YAl x Cr x-1 O 3 , dopado con Cr 3+ con x = 0.001, 0.01, que exhiben picos de difracción dominantes debidos a la fase ortorrómbica de YAlO 3 . Keywords: YAP, YAlO3, Combustion method ABSTRACT The solution-combustion process is presented, as well as its application to the synthesis of YAlO3 (YAP). Urea and glycine were used as fuel for the combustion reaction and synthesis of the YAP. The structure and morphology of the obtained sample were analyzed using the X-ray diffraction (XRD) powder method and scanning electron microscopy (SEM

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A Lazo

Synthesis of Bismuth Ferrite BiFeO₃ by solution combustion method

Study of the optical properties of BiFeO₃ under different heat treatment temperatures

Synthesis of YBCO superconductor by the method of combustion reaction in solution

Síntesis De Yaio3 (Yap) Policristalino Por El Método De Combustión en Solución

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A Lazo

Synthesis of Bismuth Ferrite BiFeO3 by solution combustion method

Study of the optical properties of BiFeO3 under different heat treatment temperatures

Synthesis of YBCO superconductor by the method of combustion reaction in solution

Síntesis De Yaio3 (Yap) Policristalino Por El Método De Combustión en Solución

Contact Info

Product

Resources

About

Synthesis of Bismuth Ferrite BiFeO₃ by solution combustion method

Study of the optical properties of BiFeO₃ under different heat treatment temperatures