Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment

Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment Publisher

Teimoury MR ; Naddafi K ; Hadi M ; Soleimani H ; Nazmara S ; Moradi M ; Alimohammadi M

Source: Results in Chemistry Published:2025

Abstract

This study explored the UVC-activated peroxymonosulfate (UVC/PMS) process for eliminating hydroxychloroquine (HCQ), a newly recognized environmental contaminant, with emphasis on identifying degradation by-products, elucidating transformation mechanisms, and assessing ecotoxicity. Key operational factors such as initial levels of HCQ and PMS, ultraviolet intensity, pH, and prevalent anions were systematically examined for their influence on the degradation performance. The degradation kinetics of HCQ was effectively modeled using a pseudo-first-order framework, demonstrating accurate prediction of removal behavior under UVC/PMS treatment conditions. At initial [PMS] = 0.132 mM, initial [HCQ] = 0.023 mM, pH = 7, UVC intensity of 22.5 mW·cm−2, 93 % removal of HCQ was achieved in 120 min reaction time. Scavenging tests using ethanol and tert-butanol indicated that hydroxyl radical was the dominant radical species. Radical scavenging experiments involving ethanol and tert-butanol revealed that hydroxyl radicals (•OH) were the primary reactive species driving HCQ degradation. In terms of water chemistry, carbonate (CO₃2−) and phosphate (PO₄3−) anions enhanced the degradation efficiency, whereas chloride (Cl−), sulfate (SO₄2−), and nitrate (NO₃−) exhibited inhibitory effects on the process performance. Despite the high rate of HCQ removal in the studied process, 19.35 % TOC removal was achieved in 180 min. Furthermore, to comprehensively evaluate the process efficiency, LC-MS analysis was applied and 22 TPs were identified based on which the degradation pathways were proposed. Last but not least, phytotoxicity test was done and indicated that some TPs formed during the UVC/PMS process had equivalent or even higher toxicity than HCQ which requires further investigations. © 2025 Elsevier B.V., All rights reserved.

Style	Citing Format
MLA	Teimoury MR, et al.. "Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment." Results in Chemistry, vol. 18, no. , 2025, pp. -.
APA	Teimoury MR, Naddafi K, Hadi M, Soleimani H, Nazmara S, Moradi M, Alimohammadi M (2025). Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment. Results in Chemistry, 18(), -.
Chicago	Teimoury MR, Naddafi K, Hadi M, Soleimani H, Nazmara S, Moradi M, Alimohammadi M. "Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment." Results in Chemistry 18, no. (2025): -.
Harvard	Teimoury MR et al. (2025) 'Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment', Results in Chemistry, 18(), pp. -.
Vancouver	Teimoury MR, Naddafi K, Hadi M, Soleimani H, Nazmara S, Moradi M, et al.. Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment. Results in Chemistry. 2025;18():-.
BibTex	@article{ author = {Teimoury MR and Naddafi K and Hadi M and Soleimani H and Nazmara S and Moradi M and Alimohammadi M}, title = {Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment}, journal = {Results in Chemistry}, volume = {18}, number = {}, pages = {-}, year = {2025} }
RIS	TY - JOUR AU - Teimoury MR AU - Naddafi K AU - Hadi M AU - Soleimani H AU - Nazmara S AU - Moradi M AU - Alimohammadi M TI - Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment JO - Results in Chemistry VL - 18 IS - SP - EP - PY - 2025 ER -

Style

Citing Format

MLA

Teimoury MR, et al.. "Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment." Results in Chemistry, vol. 18, no. , 2025, pp. -.

APA

Teimoury MR, Naddafi K, Hadi M, Soleimani H, Nazmara S, Moradi M, Alimohammadi M (2025). Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment. Results in Chemistry, 18(), -.

Chicago

Teimoury MR, Naddafi K, Hadi M, Soleimani H, Nazmara S, Moradi M, Alimohammadi M. "Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment." Results in Chemistry 18, no. (2025): -.

Harvard

Teimoury MR et al. (2025) 'Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment', Results in Chemistry, 18(), pp. -.

Vancouver

Teimoury MR, Naddafi K, Hadi M, Soleimani H, Nazmara S, Moradi M, et al.. Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment. Results in Chemistry. 2025;18():-.

BibTex

@article{ author = {Teimoury MR and Naddafi K and Hadi M and Soleimani H and Nazmara S and Moradi M and Alimohammadi M}, title = {Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment}, journal = {Results in Chemistry}, volume = {18}, number = {}, pages = {-}, year = {2025} }

RIS

TY - JOUR
AU - Teimoury MR
AU - Naddafi K
AU - Hadi M
AU - Soleimani H
AU - Nazmara S
AU - Moradi M
AU - Alimohammadi M
TI - Degradation of Hydroxychloroquine in Aqueous Solution by Uvc-Activated Peroxymonosulfate (Uvc/Pms): Degradation Kinetics, Mechanisms and Pathways, Identification of Transformation Products, and Toxicity Assessment
JO - Results in Chemistry
VL - 18
IS -
SP -
EP -
PY - 2025
ER -

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