# | Document title | Authors | Year | Source | Cited by |
1 | Two facile synthesis routes for magnetic recoverable MnFe2O4/g-C3N4nanocomposites to enhance visible light photo-Fenton activity for methylene blue degradation | Angkaew A., Chokejaroenrat C., Sakulthaew C., Mao J., Watcharatharapong T., Watcharenwong A., Imman S., Suriyachai N., Kreetachat T. | 2021 | Journal of Environmental Chemical Engineering 9(4) | 44 |
2 | Remediating sulfadimethoxine-contaminated aquaculture wastewater using ZVI-activated persulfate in a flow-through system | Chokejaroenrat C., Sakulthaew C., Angkaew A., Satapanajaru T., Poapolathep A., Chirasatienpon T. | 2019 | Aquacultural Engineering 84,pp. 99-105 | 27 |
3 | UV-activated persulfate oxidation of 17β-estradiol: Implications for discharge water remediation | Angkaew A., Sakulthaew C., Satapanajaru T., Poapolathep A., Chokejaroenrat C. | 2019 | Journal of Environmental Chemical Engineering 7(2) | 27 |
4 | Removal of 17β-Estradiol Using Persulfate Synergistically Activated Using Heat and Ultraviolet Light | Sakulthaew C., Chokejaroenrat C., Satapanajaru T., Chirasatienpon T., Angkaew A. | 2020 | Water, Air, and Soil Pollution 231(5) | 17 |
5 | Enhanced degradation of herbicides in groundwater using sulfur-containing reductants and spinel zinc ferrite activated persulfate | Chokejaroenrat C., Sakulthaew C., Chantakulvanich S., Angkaew A., Teingtham K., Phansak P., Poompoung T., Snow D.D., Harris C.E., Comfort S.D. | 2023 | Science of the Total Environment 892 | 7 |
6 | Persulfate activation using leonardite char-supported nano zero-valent iron composites for styrene-contaminated soil and water remediation | Angkaew A., Chokejaroenrat C., Angkaew M., Satapanajaru T., Sakulthaew C. | 2024 | Environmental Research 240 | 7 |
7 | Decomposition of microplastics using copper oxide/bismuth vanadate-based photocatalysts: Insight mechanisms and environmental impacts | Chokejaroenrat C., Watcharatharapong T., T-Thienprasert J., Angkaew A., Poompoung T., Chinwong C., Chirasatienpon T., Sakulthaew C. | 2024 | Marine Pollution Bulletin 201 | 6 |
8 | Fabrication of Ternary Nanoparticles for Catalytic Ozonation to Treat Parabens: Mechanisms, Efficiency, and Effects on Ceratophyllum demersum L. and Eker Leiomyoma Tumor-3 Cells | Pattanateeradetch A., Sakulthaew C., Angkaew A., Sutjarit S., Poompoung T., Lin Y.T., Harris C.E., Comfort S., Chokejaroenrat C. | 2022 | Nanomaterials 12(20) | 5 |
9 | Enhanced Photo-Fenton Activity Using Magnetic Cu0.5Mn0.5Fe2O4 Nanoparticles as a Recoverable Catalyst for Degrading Organic Contaminants | Angkaew A., Sakulthaew C., Nimtim M., Imman S., Satapanajaru T., Suriyachai N., Kreetachat T., Comfort S., Chokejaroenrat C. | 2022 | Water (Switzerland) 14(22) | 4 |
10 | Dual Activation of Peroxymonosulfate Using MnFe2O4/g-C3N4 and Visible Light for the Efficient Degradation of Steroid Hormones: Performance, Mechanisms, and Environmental Impacts | Poomipuen K., Sakulthaew C., Chokejaroenrat C., Angkaew A., Techauay K., Poompoung T., Teingtham K., Phansak P., Lueangjaroenkit P., Snow D.D. | 2023 | ACS Omega
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11 | Adsorptive–Photocatalytic Performance for Antibiotic and Personal Care Product Using Cu0.5Mn0.5Fe2O4 | Chokejaroenrat C., Sakulthaew C., Angkaew A., Pattanateeradetch A., Raksajit W., Teingtham K., Phansak P., Klongvessa P., Snow D.D., Harris C.E., Comfort S.D. | 2023 | Antibiotics 12(7) | 1 |
12 | Developing Slow-Release Reductant for Treating Herbicide-Contaminated Groundwater | Chokejaroenrat C., Angkaew A., Techauay K., Chirasatienpon T., Imman S., Sakulthaew C., Suriyachai N., Kreetachat T., Sakulthaew C. | 2023 | Water, Air, and Soil Pollution 234(6) | 1 |