| # | Document title | Authors | Year | Source | Cited by |
| 1 | Developing slow-release persulfate candles to treat BTEX contaminated groundwater | Kambhu A., Comfort S., Chokejaroenrat C., Sakulthaew C., Sakulthaew C. | 2012 | Chemosphere
89(6),pp. 656-664 | 67 |
| 2 | Hexavalent chromium adsorption from aqueous solution using carbon nano-onions (CNOs) | Sakulthaew C., Chokejaroenrat C., Poapolathep A., Satapanajaru T., Poapolathep S. | 2017 | Chemosphere
184,pp. 1168-1174 | 66 |
| 3 | A combined chemical and biological approach to transforming and mineralizing PAHs in runoff water | Sakulthaew C., Sakulthaew C., Comfort S., Chokejaroenrat C., Chokejaroenrat C., Harris C., Li X. | 2014 | Chemosphere
117(1),pp. 1-9 | 36 |
| 4 | Improving the treatment of non-aqueous phase TCE in low permeability zones with permanganate | Chokejaroenrat C., Chokejaroenrat C., Comfort S., Sakulthaew C., Sakulthaew C., Dvorak B. | 2014 | Journal of Hazardous Materials
268,pp. 177-184 | 33 |
| 5 | Improving the sweeping efficiency of permanganate into low permeable zones to treat TCE: Experimental results and model development | Chokejaroenrat C., Chokejaroenrat C., Kananizadeh N., Sakulthaew C., Sakulthaew C., Comfort S., Li Y. | 2013 | Environmental Science and Technology
47(22),pp. 13031-13038 | 32 |
| 6 | 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) | 31 |
| 7 | Removing PAHs from urban runoff water by combining ozonation and carbon nano-onions | Sakulthaew C., Sakulthaew C., Comfort S., Chokejaroenrat C., Chokejaroenrat C., Li X., Harris C. | 2015 | Chemosphere
141,pp. 265-273 | 30 |
| 8 | Development of a flow-based ultrafast immunoextraction and reverse displacement immunoassay: Analysis of free drug fractions | Schiel J., Tong Z., Sakulthaew C., Hage D. | 2011 | Analytical Chemistry
83(24),pp. 9384-9390 | 26 |
| 9 | Using slow-release permanganate candles to remediate PAH-contaminated water | Rauscher L., Sakulthaew C., Sakulthaew C., Comfort S. | 2012 | Journal of Hazardous Materials
241-242,pp. 441-449 | 26 |
| 10 | 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) | 25 |
| 11 | 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 | 24 |
| 12 | Treating methyl orange in a two-dimensional flow tank by in situ chemical oxidation using slow-release persulfate activated with zero-valent iron | Chokejaroenrat C., Sakulthaew C., Satapanajaru T., Tikhamram T., Pho-Ong A., Mulseesuk T. | 2015 | Environmental Engineering Science
32(12),pp. 1007-1015 | 21 |
| 13 | Transformation of hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX) by permanganate | Chokejaroenrat C., Comfort S., Harris C., Snow D., Cassada D., Sakulthaew C., Sakulthaew C., Satapanajaru T. | 2011 | Environmental Science and Technology
45(8),pp. 3643-3649 | 17 |
| 14 | Co-substituted Mg–Zn spinel nanocrystalline ferrites: Synthesis, characterization and evaluation of catalytic degradation efficiency for colored and colorless compounds | Irshad A., Zulfiqar M., Ali H.M., Shahzadi N., Abd El-Gawad H.H., Chokejaroenrat C., Sakulthaew C., Anjum F., Suleman M. | 2022 | Ceramics International
| 17 |
| 15 | Fractionation and characterization of lignin from sugarcane bagasse using a sulfuric acid catalyzed solvothermal process | Imman S., Khongchamnan P., Wanmolee W., Laosiripojana N., Kreetachat T., Sakulthaew C., Chokejaroenrat C., Suriyachai N. | 2021 | RSC Advances
11(43),pp. 26773-26784 | 16 |
| 16 | Remediation and Restoration of Petroleum Hydrocarbon Containing Alcohol-Contaminated Soil by Persulfate Oxidation Activated with Soil Minerals | Satapanajaru T., Chokejaroenrat C., Sakulthaew C., Yoo-iam M. | 2017 | Water, Air, and Soil Pollution
228(9) | 15 |
| 17 | Dispositions and residue depletion of enrofloxacin and its metabolite ciprofloxacin in muscle tissue of giant freshwater prawns (Macrobrachium rosenbergii) | Poapolathep A., Poapolathep A., Jermnak U., Chareonsan A., Sakulthaew C., Klangkaew N., Sukasem T., Kumagai S. | 2009 | Journal of Veterinary Pharmacology and Therapeutics
32(3),pp. 229-234 | 15 |
| 18 | Dispositions of enrofloxacin and its major metabolite ciprofloxacin in Thai swamp buffaloes | Ruennarong N., Wongpanit K., Sakulthaew C., Giorgi M., Kumagai S., Poapolathep A., Poapolathep S. | 2016 | Journal of Veterinary Medical Science
78(3),pp. 397-403 | 14 |
| 19 | 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) | 13 |
| 20 | Remediating oxytetracycline-contaminated aquaculture water using nano calcium peroxide (nCaO2) produced from flue gas desulfurization (FGD) gypsum | Vijuksungsith P., Vijuksungsith P., Satapanajaru T., Chokejaroenrat C., Jarusutthirak C., Sakulthaew C., Kambhu A., Boonprasert R. | 2021 | Environmental Technology and Innovation
24 | 11 |
| 21 | Immobilization of Atrazine Using Oxidized Lignite Amendments in Agricultural Soils | Chokejaroenrat C., Watcharenwong A., Sakulthaew C., Rittirat A. | 2020 | Water, Air, and Soil Pollution
231(5) | 10 |
| 22 | Developing persulfate-activator soft solid (PASS) as slow release oxidant to remediate phenol-contaminated groundwater | Yoo-iam M., Satapanajaru T., Chokejaroenrat C., Sakulthaew C., Comfort S., Kambhu A. | 2021 | Environmental Technology and Innovation
22 | 8 |
| 23 | Leonardite-Derived Biochar Suitability for Effective Sorption of Herbicides | Sakulthaew C., Watcharenwong A., Chokejaroenrat C., Rittirat A. | 2021 | Water, Air, and Soil Pollution
232(2) | 8 |
| 24 | Pharmacokinetics of ceftriaxone in Green sea turtles (Chelonia mydas) following intravenous and intramuscular administration at two dosages | Mapongpeng R., Laovechprasit W., Poapolathep A., Giorgi M., Junchompoo C., Sakulthaew C., Jermnak U., Passadurak W., Poapolathep S. | 2019 | Journal of Veterinary Pharmacology and Therapeutics
42(1),pp. 104-110 | 7 |
| 25 | Optimization of sugar recovery from pineapple leaves by acid-catalyzed liquid hot water pretreatment for bioethanol production | Imman S., Kreetachat T., Khongchamnan P., Laosiripojana N., Champreda V., Suwannahong K., Sakulthaew C., Chokejaroenrat C., Suriyachai N., Suriyachai N. | 2021 | Energy Reports
7,pp. 6945-6954 | 7 |
| 26 | Solvothermal-Based Lignin Fractionation From Corn Stover: Process Optimization and Product Characteristics | Khongchamnan P., Wanmolee W., Laosiripojana N., Laosiripojana N., Champreda V., Suriyachai N., Suriyachai N., Kreetachat T., Sakulthaew C., Chokejaroenrat C., Imman S. | 2021 | Frontiers in Chemistry
9 | 7 |
| 27 | Practical use of response surface methodology for optimization of veterinary antibiotic removal using UV/H2O2 process | Jutarvutikul K., Sakulthaew C., Chokejaroenrat C., Pattanateeradetch A., Imman S., Suriyachai N., Satapanajaru T., Kreetachat T. | 2021 | Aquacultural Engineering
94 | 6 |
| 28 | Oxidation of 17β-Estradiol in Water by Slow-Release Permanganate Candles | Sakulthaew C., Chokejaroenrat C. | 2016 | Environmental Engineering Science
33(4),pp. 224-234 | 6 |
| 29 | Toxicokinetic profile of fusarenon-X and its metabolite nivalenol in the goat (Capra hircus) | Phruksawan W., Poapolathep S., Giorgi M., Imsilp K., Sakulthaew C., Owen H., Poapolathep A. | 2018 | Toxicon
153,pp. 78-84 | 5 |
| 30 | Enrofloxacin and Sulfamethoxazole Sorption on Carbonized Leonardite: Kinetics, Isotherms, Influential Effects, and Antibacterial Activity toward S. aureus ATCC 25923 | Chokejaroenrat C., Sakulthaew C., Satchasataporn K., Snow D.D., Ali T.E., Ali T.E., Assiri M.A., Watcharenwong A., Imman S., Suriyachai N., Kreetachat T. | 2022 | Antibiotics
11(9) | 5 |
| 31 | Remediating phenol-contaminated groundwater and aquifer using persulfate oxidation | Yoo-Iam M., Satapanajaru T., Chokejaroenrat C., Sakulthaew C., Comfort S. | 2020 | Desalination and Water Treatment
208,pp. 159-171 | 4 |
| 32 | Optimization of Liquid Hot Water Pretreatment and Fermentation for Ethanol Production from Sugarcane Bagasse Using Saccharomyces cerevisiae | Khongchamnan P., Suriyachai N., Suriyachai N., Kreetachat T., Laosiripojana N., Weerasai K., Champreda V., Suwannahong K., Sakulthaew C., Chokejaroenrat C., Imman S. | 2022 | Catalysts
12(5) | 4 |
| 33 | Sulfadimethoxine in giant freshwater prawns (Macrobrachium rosenbergii): an attempt to estimate the withdrawal time by a population pharmacokinetic approach | Poapolathep A., Giorgi M., Toutain P.L., Poapolathep S., Imsilp K., Sakulthaew C., Wannapat N., Klangkaew N. | 2017 | Journal of Veterinary Pharmacology and Therapeutics
40(5),pp. 476-485 | 4 |
| 34 | 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) | 2 |
| 35 | Removal and reuse of phosphorus from aquaculture water using activated carbon-based CaO2 nanoparticles | Vijuksungsith P., Vijuksungsith P., Satapanajaru T., Chokejaroenrat C., Jarusutthirak C., Sakulthaew C., Kambhu A., Yoo-iam M., Boonprasert R. | 2023 | Environmental Technology and Innovation
29 | 2 |
| 36 | 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) | 1 |
| 37 | 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 | 0 |
| 38 | 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) | 0 |
| 39 | Developing a Slow-Release Permanganate Composite for Degrading Aquaculture Antibiotics | Sakulthaew C., Chokejaroenrat C., Panya S., Songsasen A., Poomipuen K., Imman S., Suriyachai N., Kreetachat T., Comfort S. | 2023 | Antibiotics
12(6) | 0 |
| 40 | 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
| 0 |
| 41 | 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 | 0 |
| 42 | Pharmacokinetics of amoxicillin trihydrate in Thai swamp buffaloes (Bubalus bubalis): a pilot study | Ruennarong N., Wongpanit K., Sakulthaew C., Giorgi M., Klangkaew N., Poapolathep A., Poapolathep S. | 2017 | Journal of Veterinary Pharmacology and Therapeutics
40(2),pp. 200-202 | 0 |