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Patel D, Singh A, Ambati SR, Singh RS, Sonwani RK. 2024. An overview of recent advances in treatment of complex dye-containing wastewater and its techno-economic assessment. Journal of Environmental Management 370:122804

Lin J, Ye W, Xie M, Seo DH, Luo J, et al. 2023. Environmental impacts and remediation of dye-containing wastewater. Nature Reviews Earth & Environment 4:785−803

Wang X, Gong P, Wang C, Ren J, Yao T. 2016. A review of current knowledge and future prospects regarding persistent organic pollutants over the Tibetan Plateau. Science of The Total Environment 573:139−154

Chung KT. 2016. Azo dyes and human health: a review. Journal of Environmental Science and Health Part C: Environmental Carcinogenesis and Ecotoxicology Reviews 34:233−261

Ramamurthy K, Priya PS, Murugan R, Arockiaraj J. 2024. Hues of risk: investigating genotoxicity and environmental impacts of azo textile dyes. Environmental Science and Pollution Research 31:33190−33211

Hessel C, Allegre C, Maisseu M, Charbit F, Moulin P. 2007. Guidelines and legislation for dye house effluents. Journal of Environmental Management 83:171−180

Bollinger JC, Lima EC, Mouni L, Salvestrini S, Tran HN. 2025. Molecular properties of methylene blue, a common probe in sorption and degradation studies: a review. Environmental Chemistry Letters 23:1403−1424

Harja M, Buema G, Bucur D. 2022. Recent advances in removal of Congo Red dye by adsorption using an industrial waste. Scientific Reports 12:6087

Liu H, Zhang J, Lu M, Liang L, Zhang H, et al. 2020. Biosynthesis based membrane filtration coupled with iron nanoparticles reduction process in removal of dyes. Chemical Engineering Journal 387:124202

Isaev AB, Shabanov NS, Magomedova AG, Nidheesh PV, Oturan MA. 2023. Electrochemical oxidation of azo dyes in water: a review. Environmental Chemistry Letters 21:2863−2911

Liu X, Chen Z, Du W, Liu P, Zhang L, et al. 2022. Treatment of wastewater containing methyl orange dye by fluidized three dimensional electrochemical oxidation process integrated with chemical oxidation and adsorption. Journal of Environmental Management 311:114775

Bhatia D, Sharma NR, Singh J, Kanwar RS. 2017. Biological methods for textile dye removal from wastewater: a review. Critical Reviews in Environmental Science and Technology 47:1836−1876

Yu S, Zhang W, Dong X, Wang F, Yang W, et al. 2024. A review on recent advances of biochar from agricultural and forestry wastes: preparation, modification and applications in wastewater treatment. Journal of Environmental Chemical Engineering 12:111638

Ahmed SF, Mehejabin F, Chowdhury AA, Almomani F, Khan NA, et al. 2024. Biochar produced from waste-based feedstocks: mechanisms, affecting factors, economy, utilization, challenges, and prospects. Global Change Biology Bioenergy 16:e13175

Akhtar MS, Ali S, Zaman W. 2024. Innovative adsorbents for pollutant removal: exploring the latest research and applications. Molecules 29:4317

Shao Z, Zhao Y, Wang S, Xie L, Zhang L, et al. 2025. Effects and mechanisms of Fe/N co-doped magnetic biochar for efficient removal of single and multiple dye. Colloids and Surfaces A: Physicochemical and Engineering Aspects 704:135505

Shen Y, Zhu Y. 2024. One-pot synthesis of biomass-derived porous carbons for multipurpose energy applications. Journal of Materials Chemistry A 12:6211−6242

Chon K, Kim YM, Bae S. 2024. Advances in Fe-modified lignocellulosic biochar: impact of iron species and characteristics on wastewater treatment. Bioresource Technology 395:130332

Liu L, Yu R, Zhao S, Cao X, Zhang X, et al. 2023. Heterogeneous Fenton system driven by iron-loaded sludge biochar for sulfamethoxazole-containing wastewater treatment. Journal of Environmental Management 335:117576

Xie J, Lin R, Liang Z, Zhao Z, Yang C, et al. 2021. Effect of cations on the enhanced adsorption of cationic dye in Fe₃O₄-loaded biochar and mechanism. Journal of Environmental Chemical Engineering 9:105744

Cheng H, Liu Y, Li X. 2021. Adsorption performance and mechanism of iron-loaded biochar to methyl orange in the presence of Cr⁶⁺ from dye wastewater. Journal of Hazardous Materials 415:125749

Chakraborty R, Vilya K, Pradhan M, Nayak AK. 2022. Recent advancement of biomass-derived porous carbon based materials for energy and environmental remediation applications. Journal of Materials Chemistry A 10:6965−7005

Sagar NA, Pareek S, Sharma S, Yahia EM, Lobo MG. 2018. Fruit and vegetable waste: bioactive compounds, their extraction, and possible utilization. Comprehensive Reviews in Food Science and Food Safety 17:512−531

Tsouko E, Maina S, Ladakis D, Kookos IK, Koutinas A. 2020. Integrated biorefinery development for the extraction of value-added components and bacterial cellulose production from orange peel waste streams. Renewable Energy 160:944−954

Mishra RK, Mohanty K. 2023. A review of the next-generation biochar production from waste biomass for material applications. Science of The Total Environment 904:167171

Sajjadi B, Zubatiuk T, Leszczynska D, Leszczynski J, Chen WY. 2019. Chemical activation of biochar for energy and environmental applications: a comprehensive review. Reviews in Chemical Engineering 35:777−815

Minaei S, Benis KZ, McPhedran KN, Soltan J. 2023. Evaluation of a ZnCl₂-modified biochar derived from activated sludge biomass for adsorption of sulfamethoxazole. Chemical Engineering Research & Design 190:407−420

Hou X, Wang W, Gao X, Ran K, Huang Y, et al. 2022. Salt template assisted synthesis of Fe@graphene for high-performance electromagnetic wave absorption. Carbon 199:268−278

Zhang L, Hu X, Zhou Q. 2020. Sunlight-assisted tailoring of surface nanostructures on single-layer graphene nanosheets for highly efficient cation capture and high-flux desalination. Carbon 161:674−684

Zhang N, Reguyal F, Praneeth S, Sarmah AK. 2023. A green approach of biochar-supported magnetic nanocomposites from white tea waste: production, characterization and plausible synthesis mechanisms. Science of The Total Environment 886:163923

Yue T, Jia J, Chang Y, Guo S, Su Y, et al. 2025. Modulation of the electronic structure of nitrogen-carbon sites by sp³-hybridized carbon coupled to chloride ions improves electrochemical carbon dioxide reduction performance. Journal of Colloid and Interface Science 688:241−249

Merlen A, Buijnsters JG, Pardanaud C. 2017. A guide to and review of the use of multiwavelength Raman spectroscopy for characterizing defective aromatic carbon solids: from graphene to amorphous carbons. Coatings 7:153

Miao X, Chen X, Wu W, Lin D, Yang K. 2022. Intrinsic defects enhanced biochar/peroxydisulfate oxidation capacity through electron-transfer regime. Chemical Engineering Journal 438:135606

Liu J, Zhang QH, Ma F, Zhang SF, Zhou Q, et al. 2020. Three-step identification of infrared spectra of similar tree species to Pterocarpus santalinus covered with beeswax. Journal of Molecular Structure 1218:128484

Kim DG, Ko SO. 2020. Effects of thermal modification of a biochar on persulfate activation and mechanisms of catalytic degradation of a pharmaceutical. Chemical Engineering Journal 399:125377

Chaudhari DS, Upadhyay RP, Shinde GY, Gawande MB, Filip J, et al. 2024. A review on sustainable iron oxide nanoparticles: syntheses and applications in organic catalysis and environmental remediation. Green Chemistry 26:7579−7655

Ganjali F, Kashtiaray A, Zarei-Shokat S, Taheri-Ledari R, Maleki A. 2022. Functionalized hybrid magnetic catalytic systems on micro- and nanoscale utilized in organic synthesis and degradation of dyes. Nanoscale Advances 4:1263−1307

Fan M, Li C, Sun Y, Zhang L, Zhang S, et al. 2021. In situ characterization of functional groups of biochar in pyrolysis of cellulose. Science of The Total Environment 799:149354

Mashkoor F, Mashkoor R, Shoeb M, Anwer AH, Ansari MZ, et al. 2023. A smart recycling solution: WS₂-halloysite nanocomposite for heavy metals remediation from wastewater and postliminar application in electrochemical supercapacitor for energy storage. Applied Clay Science 245:107149

Saadi R, Saadi Z, Fazaeli R, Fard NE. 2015. Monolayer and multilayer adsorption isotherm models for sorption from aqueous media. Korean Journal of Chemical Engineering 32:787−799

Zhang X, Wang S, Chen H, Wang X, Deng J, et al. 2023. Observation of carbon nanostructure and evolution of chemical structure from coal to graphite by high temperature treatment, using componential determination, X-ray diffraction and high-resolution transmission electron microscope. Fuel 332:126145

Zhang Z, Wang G, Li W, Zhang L, Chen T, et al. 2020. Degradation of methyl orange through hydroxyl radical generated by optically excited biochar: performance and mechanism. Colloids and Surfaces A: Physicochemical and Engineering Aspects 601:125034

Wang L, Li J, Cheng L, Song Y, Zeng P, et al. 2021. Application of hard and soft acid base theory to uncover the destructiveness of Lewis bases to UiO-66 type metal organic frameworks in aqueous solutions. Journal of Materials Chemistry A 9:14868−14876

Fan S, Wang Y, Wang Z, Tang J, Tang J, et al. 2017. Removal of methylene blue from aqueous solution by sewage sludge-derived biochar: adsorption kinetics, equilibrium, thermodynamics and mechanism. Journal of Environmental Chemical Engineering 5:601−611

Wang J, Tan Y, Yang H, Zhan L, Sun G, et al. 2023. On the adsorption characteristics and mechanism of methylene blue by ball mill modified biochar. Scientific Reports 13:21174

Sun Y, Wang T, Han C, Lv X, Bai L, et al. 2022. Facile synthesis of Fe-modified lignin-based biochar for ultra-fast adsorption of methylene blue: selective adsorption and mechanism studies. Bioresource Technology 344:126186

Wang Y, Zhang Y, Li S, Zhong W, Wei W. 2018. Enhanced methylene blue adsorption onto activated reed-derived biochar by tannic acid. Journal of Molecular Liquids 268:658−666

Sahu S, Pahi S, Tripathy S, Singh SK, Behera A, et al. 2020. Adsorption of methylene blue on chemically modified lychee seed biochar: dynamic, equilibrium, and thermodynamic study. Journal of Molecular Liquids 315:113743

Liu J, Lin Q, Gao J, Jia X, Cai M, et al. 2023. Adsorption properties and mechanisms of methylene blue and tetracycline by nano-silica biochar composites activated by KOH. Chemosphere 337:139395