Preparation of a coated Z-scheme and H-type SrTiO3/(BiFeO3@ZnS) composite photocatalyst and application in degradation of 2,4-dichlorophenol with simultaneous conversion of Cr(VI)

“…; tantalates, LiTaO 3 , 124 ; and ferrites, LaFeO 3 , [164][165][166][167][168][169] BiFeO 3 [170][171][172][173][174][175][176] and GaFeO 3 . 177 These compounds show great potential for application in visible light-driven photoreactions.…”

“…Furthermore, it is possible to combine properties, such as ferroelectricity or piezoelectricity, with the photocatalytic effect to improve photocatalytic activity. The perovskite photocatalysts can be classified into the following categories: titanates, SrTiO 3 112–118 and BaTiO 3 119–123 ; tantalates, LiTaO 3 , 124 NaTaO 3 125–132 and KTaO 3 133–137 ; niobates, LiNbO 3 , 138,139 NaNbO 3 140–147 and KNbO 3 148–153 ; vanadates, AgVO 3 154–162 ; and ferrites, LaFeO 3 , 164–169 BiFeO 3 170–176 and GaFeO 3 177 . These compounds show great potential for application in visible light‐driven photoreactions.…”

Advances in Z‐scheme semiconductor photocatalysts for the photoelectrochemical applications: A review

“…; tantalates, LiTaO 3 , 124 ; and ferrites, LaFeO 3 , [164][165][166][167][168][169] BiFeO 3 [170][171][172][173][174][175][176] and GaFeO 3 . 177 These compounds show great potential for application in visible light-driven photoreactions.…”

“…Furthermore, it is possible to combine properties, such as ferroelectricity or piezoelectricity, with the photocatalytic effect to improve photocatalytic activity. The perovskite photocatalysts can be classified into the following categories: titanates, SrTiO 3 112–118 and BaTiO 3 119–123 ; tantalates, LiTaO 3 , 124 NaTaO 3 125–132 and KTaO 3 133–137 ; niobates, LiNbO 3 , 138,139 NaNbO 3 140–147 and KNbO 3 148–153 ; vanadates, AgVO 3 154–162 ; and ferrites, LaFeO 3 , 164–169 BiFeO 3 170–176 and GaFeO 3 177 . These compounds show great potential for application in visible light‐driven photoreactions.…”

Advances in Z‐scheme semiconductor photocatalysts for the photoelectrochemical applications: A review

“…Originally, phenolic compounds are found in most plant tissues, including fruits and vegetables (Gu et al 2019). However, in past decades, numerous industries, including plastic industries, pharmaceutical industries, and textile industries, have started to exploit and initiate mass production of phenolic compounds in their industries to meet the current demand for phenolic compounds in the market (Qu et al 2020). The phenolic compounds have been used for a variety of applications since past decades, for instance, in the agriculture sectors, as herbicides and pesticides to promote the yield of crops (Liang et al 2020).…”

Simultaneous remediation of hexavalent chromium and organic pollutants in wastewater using period 4 transition metal oxide-based photocatalysts: a review

“…[9] Qua et al prepared a novel type of coated Z and heterojunction (Z and H) SrTiO 3 / (BiFeO 3 @ZnS) composite photocatalyst by adsorption reaction of isoelectric point and continuous ion layer, which facilitated the separation of photogenerated electrons from holes and accelerated the transfer of photogenerated electrons, thus had good photocatalytic activity for the degradation of organics. [10] Parvaneh et al prepared graphene/LaMn 0.5 Ti 0.5 O 3 by sol-gel method, and used it to photo-decomposed azo dye Basic Red 46 under visible light. It was proved that graphene/ LaMn 0.5 Ti 0.5 O 3 had excellent electrical conductivity, which made its high separation efficiency of photo-generated electron-hole pairs and had excellent photocatalytic activity.…”

“…Zhang et al prepared α‐Fe 2 O 3 / NiTiO 3 heterojunction nanofibers by a two‐step synthesis method, which showed enhanced performance in photocatalytic degradation of the organic dye rhodamine B (RhB) under visible light irradiation [9] . Qua et al prepared a novel type of coated Z and heterojunction (Z and H) SrTiO 3 /(BiFeO 3 @ZnS) composite photocatalyst by adsorption reaction of isoelectric point and continuous ion layer, which facilitated the separation of photogenerated electrons from holes and accelerated the transfer of photogenerated electrons, thus had good photocatalytic activity for the degradation of organics [10] . Parvaneh et al prepared graphene/LaMn 0.5 Ti 0.5 O 3 by sol‐gel method, and used it to photo‐decomposed azo dye Basic Red 46 under visible light.…”

Heterogeneous Photo‐Fenton Catalytic Oxidation of Ciprofloxacin Using LaFeO₃/Diatomite Composite Photocatalysts under Visible Light