Due to a production error, in Table 1, column 1, the PS I (N) value was given as g-C34 instead of g-C3N4. The corrected table appears below.
TABLE 1
| PS I (N) | PS II | Electron shuttle | Light source | Application | Activity | Ref |
|---|---|---|---|---|---|---|
| g-C3N4 | MoS2 | Ag | 300 W Xe lamp (λ > 420 nm) | degradation of RhB | DE = 100% (60 min) | Lu et al. (2017) |
| H2 production | 104 μmol h−1 g−1 | |||||
| g-C3N4 | BiVO4 | Ag | 300 W Xe lamp (λ > 350 nm) | Degradation of TC | DE = 90.76% (60 min) | Chen et al. (2017a) |
| 300 W Xe lamp (λ > 420 nm) | DE = 82.75% (60 min) | |||||
| g-C3N4 | NaTaO3 | Ag | 300 W Xe lamp (λ < 420 nm) | Degradation of TC | DE = 95.47% (60 min) | Tang et al. (2018) |
| 300 W Xe lamp (λ > 420 nm) | DE = 91.48% (60 min) | |||||
| g-C3N4 | Bi3TaO7 | Ag | 300Â W Xe lamp | Degradation of SMZ | DE = 98% (25Â min) | Ren et al. (2019) |
| g-C3N4 | Ag3PO4 | Ag | 300 W Xe lamp (λ > 420 nm) | Removing of NO | 74% (90 min) | Li et al. (2021a) |
| g-C3N4 | BiVO4 | Ag | 300 W Xe lamp (λ > 420 nm) | Degradation of CIP | DE = 92.6% (120 min) | Deng et al. (2018) |
| g-C3N4 | LaFeO3 | Ag | 300 W Xe lamp (λ > 420 nm) | Degradation of MB | DE = 98.97% (90 min) DE = 92.93% (120 min) |
Zhang et al. (2021a) |
| Degradation of TC | ||||||
| g-C3N4 | AgVO3 | Ag | 300 W Xe lamp (λ > 400 nm) | Degradation of RhB | DE = 100% (12 min) | Liu et al. (2019) |
| E. coli inactivation | 3.05 log (100Â min) | |||||
| g-C3N4 | AgCl | Ag | 300 W Xe lamp (λ > 420 nm) | Degradation of Rh B | DE = 100% (60 min) | Bao and Chen (2016) |
| Degradation of MO | DE = 99% (90Â min) | |||||
| g-C3N4 | Ag2CrO4 | Ag | 500Â W Xe lamp | Degradation of MO | DE = 78% (30Â min) | Yu et al. (2021) |
| g-C3N4 | TiO2 | Ag | 500Â W Xe lamp | Reduction of U (VI) | 99% (30Â min) | Liu et al. (2022) |
| g-C3N4 | Zn0.5Cd0.5S | Au | 300 W Xe lamp (λ > 420 nm) | Reduction of CO2 for CH3OH evolution | 1.31 μmol h−1 g−1 | Madhusudan et al. (2021) |
| g-C3N4 | CdS | Au | 300 W Xe lamp (λ > 455 nm) | H2 production reduction of CO2 | 277 μmol h−1 (4 h) | Zheng et al. (2015b) |
| 300 W Xe lamp (λ > 420 nm) | 85% | |||||
| g-C3N4 | ZnIn2S4 | Au | 300Â W Xe lamp | Removal of NO | 59.7% | Zhang et al. (2020a) |
| CO production | 242.3 μmol h−1 g−1 | |||||
| g-C3N4 | AgCl | Au | 200 W Xe lamp (λ > 420 nm) | Degradation of Rh B | DE = 93.1% (25 min) | Zhang et al. (2021b) |
| g-C3N4 | TiO2(P25) | Au | 150 W Hg Lamp | H2 production | 419 μmol h−1 g−1 | Jiménez-Calvo et al. (2020) |
| g-C3N4 | Cu2ZnSnS4 | Pt | 400 W Xe lamp (λ > 420 nm) | Reduction of CO2 for CO/CH4 evolution | 17.351/7.961 μmol h−1 g−1 | Raza et al. (2020) |
| g-C3N4 | AgVO3 | Pt | 300 W Xe lamp (λ > 420 nm) | H2 production | 10,444 μmol h−1 g−1 | Qureshi et al. (2023) |
| g-C3N4 | BiVO4 | Pt | 300 W Xe lamp (λ > 420 nm) | Degradation of MB | DE = 100% (70 min) | Si et al. (2020) |
| Degradation of BPA | DE = 92.7% (130Â min) | |||||
| H2 production | 72 μmol h−1 g−1 | |||||
| g-C3N4 | WO3 | C | 500 W Xe lamp (λ > 420 nm) | Degradation of TC | DE = 75% (60 min) | Zhao et al. (2021) |
Recent progress in g-C3N4-based ASS ternary Z-scheme photocatalysis with different electron mediators.
DE, degradation efficiency; E, efficiency; Rh B, Rhodamine B; TC, tetracycline; SMZ, sulfamethoxazole; NO, nitric oxides; CIP, ciprofloxacin; MB, methylene blue; MO, methyl orange; BPA, Bisphenol A; 2,4-DCP, 2,4-dichlorophenol; TC-HCl, Tetracycline Hydrochloride; CR, congo red; GO, graphene oxide; RGO, reduced graphene oxide; AFB1, Aflatoxins B1.
The publisher apologizes for this mistake. The original version of this article has been updated.
Summary
Keywords
G-C3N4, ternary composite photocatalysts, all-solid-state ternary Z-scheme, direct ternary Z-scheme, application
Citation
Frontiers Production Office (2024) Erratum: Recent advances in ternary Z-scheme photocatalysis on graphitic carbon nitride based photocatalysts. Front. Chem. 12:1447771. doi: 10.3389/fchem.2024.1447771
Received
12 June 2024
Accepted
12 June 2024
Published
02 July 2024
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Frontiers Editorial Office, Frontiers Media SA, Switzerland
Volume
12 - 2024
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