Accurate investigation to determine the best conditions for using NiTiO3 for bromophenol blue degradation in the environment under UV–vis light based on concentration reduction and to compare it with TiO2

“…There is a broad absorption band between 3400 and 3500 cm -1 , which related to the absorption of the H2O molecules' stretch on the surface of the TiO2 samples. It is clear in the cases A0.6R0.4 and R [45]. Besides, some components band gap illustrates various kind of interaction of water molecules with TiO2, containing their absorption into the mesoporous [46].…”

“…The process of the photocatalytic reaction is explained in detail in many types of research and our previous work [15,45,52].…”

“…The photocatalytic oxidation of alcohols to their corresponding aldehydes has attracted a great deal of interest in several fields of chemistry [18][19][20][21][22][23][24][25]. This is because of the importance of aldehydes in various chemical usages, including drugs, dyes, resins and fragrances [26].…”

The Complex Compound of Amino Acids With Titanium (III) as a Method to Control and Synthesis of Different Structures of TiO2 Nanoparticles; Usage as Photocatalysts to Oxidize Alcohols to Aldehyde

“…There is a broad absorption band between 3400 and 3500 cm -1 , which related to the absorption of the H2O molecules' stretch on the surface of the TiO2 samples. It is clear in the cases A0.6R0.4 and R [45]. Besides, some components band gap illustrates various kind of interaction of water molecules with TiO2, containing their absorption into the mesoporous [46].…”

“…The process of the photocatalytic reaction is explained in detail in many types of research and our previous work [15,45,52].…”

“…The photocatalytic oxidation of alcohols to their corresponding aldehydes has attracted a great deal of interest in several fields of chemistry [18][19][20][21][22][23][24][25]. This is because of the importance of aldehydes in various chemical usages, including drugs, dyes, resins and fragrances [26].…”

The Complex Compound of Amino Acids With Titanium (III) as a Method to Control and Synthesis of Different Structures of TiO2 Nanoparticles; Usage as Photocatalysts to Oxidize Alcohols to Aldehyde

“…TiO 2 nanoparticle is one of the most proper and popular semiconductors whose applications cover diverse industrial areas including photocatalysis [1,2], thin-lm, sunscreen, photovoltaic, electrodes [3,4], sensors [5,6], and drug delivery [7,8]. In this regard, TiO 2 nanoparticle have been prepared through different methods, including sol-gel [9], inverse micelle [10,11], hydrothermal [12], straight oxidation [13][14][15], chemical vapor deposition [16][17][18], physical vapor deposition [19][20][21], electrochemical accumulation [22][23][24], sonochemical [25], microwave [26][27][28], and organometallic complex compounds [29][30][31][32][33][34]. However, almost all of the mentioned methods require high temperature (usually more than 500) [35].…”

Investigation an environmentally friendly method under magnetic field as a green solvent for the synthesis of brookite phase nanoparticles at room temperature

“…TiO 2 nanoparticle is one of the most proper and popular semiconductors whose applications cover diverse industrial areas including photocatalysis [1,2], thin-lm, sunscreen, photovoltaic, electrodes [3,4], sensors [5,6], and drug delivery [7,8]. In this regard, TiO 2 nanoparticle have been prepared through different methods, including sol-gel [9], inverse micelle [10,11], hydrothermal [12], straight oxidation [13][14][15], chemical vapor deposition [16][17][18], physical vapor deposition [19][20][21], electrochemical accumulation [22][23][24], sonochemical [25], microwave [26][27][28], and organometallic complex compounds [29][30][31][32][33][34]. However, almost all of the mentioned methods require high temperature (usually more than 500) [35].…”

Investigation an environmentally friendly method under magnetic field as a green solvent for the synthesis of brookite phase nanoparticles at room temperature