Low‐Temperature Hydrothermal Synthesis of Pure BiFeO₃ Nanopowders Using Triethanolamine and Their Applications as Visible‐Light Photocatalysts

Abstract: BiFeO3 (BFO) nanopowders were synthesized at low temperatures via a hydrothermal process with the aid of triethanolamine (TEA) and their structural, optical, and photocatalytic properties were investigated. As a result of a strong reaction between TEA and Fe ions, pure BFO nanopowders without any secondary phases could be synthesized at temperatures as low as 130°C. BFO nanopowders exhibited a strong absorption in the visible‐light regime, which resulted in the efficient photocatalytic activity for decompositi… Show more

“…Blank tests (pure RhB aqueous solution without BFO) under visible light showed that only 3 % of RhB decomposed after 4 h irradiation, which indicated that the RhB is resistant to decomposition under visible-light irradiation. However, in the presence of the BiFeO 3 as photocatalyst, more than 40 % of RhB was decomposed after 4 h visible-light irradiation, which is comparable with that of another report [35]. The above result proves that the photocatalytic activity of BFO powders is quite efficient and indicates that BFO powders are promising visible-light photocatalysts.…”

Low-temperature acetone-assisted hydrothermal synthesis and characterization of BiFeO3 powders

“…Blank tests (pure RhB aqueous solution without BFO) under visible light showed that only 3 % of RhB decomposed after 4 h irradiation, which indicated that the RhB is resistant to decomposition under visible-light irradiation. However, in the presence of the BiFeO 3 as photocatalyst, more than 40 % of RhB was decomposed after 4 h visible-light irradiation, which is comparable with that of another report [35]. The above result proves that the photocatalytic activity of BFO powders is quite efficient and indicates that BFO powders are promising visible-light photocatalysts.…”

Low-temperature acetone-assisted hydrothermal synthesis and characterization of BiFeO3 powders

“…Nanosized BiFeO 3 powders have been reported to exhibit weak ferromagnetism at room temperature, which is different from the magnetic property of bulk samples [7,8]. Furthermore, BiFeO 3 nanopowders have shown the prominent visible-light photocatalytic activity that is ascribed to the small bandgap and the high surface area of nanosized BiFeO 3 [8,9]. These nanosize-induced properties are expected to widen the potential applications of BiFeO 3 .…”

Preparation of high-quality BiFeO3 nanopowders via a polyacrylamide gel route

“…To obtain nano-crystalline powders with high homogeneity and uniform structure, many techniques have been provided for the synthesis of the BiFeO 3 powders. These methods are coprecipitation [8], hydrothermal [9][10][11][12][13][14], solvothermal [15,16], sonochemical [17], microemulsion [17], polyacrylamide gel [18], ferrioxalate [19], sol-gel [6,[20][21][22][23], combustion synthesis [7,[24][25][26], molten-salt [27][28][29], tartaric acid-assisted gel strategy [30], polymeric precursor [31,32] and mechanochemical synthesis [33]. The chemical co-precipitation method ensures proper distribution of the various metals ions resulting to stoichiometric and smaller particles size product, compared to some of the other procedures.…”

Effect of synthesis conditions on the preparation of BiFeO3 nanopowders using two different methods