Structural features of La0.55Ca0.45A0.50Co0.50O3 (A = Mg, Mn) nanoparticles over photo-degradation of methyl blue
Hamid Yousefi
1
(
School of Physics, Damghan University (DU), Damghan, Islamic Republic of Iran
)
Ahmad Gholizadeh
2
(
School of Physics, Damghan University (DU), Damghan, Islamic Republic of Iran
)
Zahra MirbeigSabzevari
3
(
School of Chemistry, Damghan University (DU), Damghan, Islamic Republic of Iran
)
Azim Malekzadeh
4
(
School of Chemistry, Damghan University (DU), Damghan, , Islamic Republic of Iran
)
Keywords: nanoparticles, Structural Properties, UV-Visible, Cobaltite Perovskite, Photo-Degradation,
Abstract :
La0.55Ca0.45A0.5Co0.5O3(A = Mg, Mn) nanoparticles prepared by citrate method were characterized using X-ray diffraction measurement, transmission electron microscopy, Fourier transform infrared and UV-Vis spectroscopy. The structural analysis using X’Pert package and Fullprof program is an evidence for the presence of the perovskite structure. The calculated value of crystallite size, particle size and band gap energy of La0.55Ca0.45Mg0.5Co0.5O3 is much less than La0.55Ca0.45Mg0.5Co0.5O3. The photocatalytic activity of the product was studied for degradation of an aqueous solution of methyl blue under solar condition. The effects of three operational parameters including irradiation time, pH, and the catalyst amount on the dye degradation were analyzed using optical absorption spectra. The degradation efficiency of MB solutions in the presence of 10 mg La0.55Ca0.45Mn0.5Co0.5O3 nanoparticles under visible light indicate to be higher than La0.55Ca0.45Mg0.5Co0.5O3 nanoparticles. 96 % degradation is obtained in an aqueous solution at pH = 2.33 and containing 30 mg La0.55Ca0.45Mg0.5Co0.5O3 catalyst after 30 minutes.