A new S-scheme heterojunction of 1D ZnGa2O4/ZnO nanofiber for efficient photocatalytic degradation of TC-HCl

“…Most such metal oxides with d 0 and/or d 10 metals are capable of overall water splitting because of the wide band gap as well as the appropriate potentials of the CBM and valence band maximum (VBM). 24–27 The problem is also the same point. The band gap is too wide to limit the light absorption ability.…”

Ba₃SnGa_10−xIn_xO₂₀ (0 ≤ x ≤ 2): site-selective doping, band structure engineering and photocatalytic overall water splitting

“…Most such metal oxides with d 0 and/or d 10 metals are capable of overall water splitting because of the wide band gap as well as the appropriate potentials of the CBM and valence band maximum (VBM). 24–27 The problem is also the same point. The band gap is too wide to limit the light absorption ability.…”

Ba₃SnGa_10−xIn_xO₂₀ (0 ≤ x ≤ 2): site-selective doping, band structure engineering and photocatalytic overall water splitting

“…The residues of TC-HCl have been frequently detected in surface waters, groundwater, soils, vegetables, fruits, and other food products around the world, which results in bacterial resistance and potential health threat. [3,4] Various methods for removing TC-HCl have been researched and implemented in the water treatment industry. Due to its high efficiency, low cost, and environmental-friendly characteristics, photocatalytic oxidation technology based on semiconductors has demonstrated significant advantages in degrading organic pollutants.…”

An S‐Scheme AgIn₅S₈/Bi₂MoO₆ Heterojunction for the Photocatalytic Degradation of Hydrochloride Tetracycline

“…7−9 Among them, visible light-driven semiconductor photocatalysis is an economical, environmentally friendly, and highly efficient new technology with great performance for eliminating organic contaminants from wastewater. 10,11 In recent years, semiconductor-based photocatalysts for the decomposition of TC have emerged, such as g-C 3 N 4 , 12 ZnO, 13 and Bi 5 O 7 I. 14 However, traditional semiconductor photocatalysts still have a series of weaknesses, such as low visible light absorption, high photogenerated carrier complexation rate, weak reactant adsorption ability, weak product desorption ability, etc.…”

“…In recent years, semiconductor-based photocatalysts for the decomposition of TC have emerged, such as g-C 3 N 4 , ZnO, and Bi 5 O 7 I . However, traditional semiconductor photocatalysts still have a series of weaknesses, such as low visible light absorption, high photogenerated carrier complexation rate, weak reactant adsorption ability, weak product desorption ability, etc. , The ternary sulfur compounds AB 2 X 4 semiconductor material has received widespread attention in the photocatalysis field for its simple synthesis process, low cost, distinctive electronic structure, tunable optical properties, and appropriate band-gap width .…”

MOF-Derived In₂O₃ Microrod-Decorated MgIn₂S₄ Nanosheets: Z-Scheme Heterojunction for Efficient Photocatalytic Degradation of Tetracycline