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Silver nanoparticles modified titanium carbide MXene composite for RSM-CCD optimised chloride removal from water

Roya Moosaei, Samad Sabbaghi, Mohammad Sadegh Jafari Zadegan, Kamal Rasouli, Samaneh Ghaedi, Hamid Rajabi

2024Journal of Molecular Liquids21 citationsDOIOpen Access PDF

Abstract

Unsafe levels of chloride in drinking water can make it unpalatable, susceptible to infrastructure corrosion and prone to heavy metals mobility. Conventional chloride mitigation strategies are subjected to inefficient performance and costly operation, necessitating innovations for more sustainable, affordable, and scalable technologies. In this study, silver nanoparticles-modified Ti3C2 MXene nanocomposite (AgMX) is synthesised via dry impregnation method for effective removal of chloride ion from water. The composite physicochemical properties were thoroughly characterised using various analytical techniques, including TEM, SEM, XRD, EDS, BET, zeta potential and pHpzc analysis. The experimental testing was optimised using CCD-RSM method in terms of adsorbent dosage (0.2–2 g/L), reaction time (1–17 min), and chloride concentration (10–90 mg/L). Under optimal conditions (adsorbent:1.55 g/L, time: 12.19 min, & concentration: 52.17 mg/L), a promising chloride removal of 91.8 % was achieved. Langmuir model showed the best fit to adsorption isotherm (R2: 0.9852) comparing to Freundlich and Dubinin-Kaganer-Radushkevich (DKR) isotherms, while pseudo-second-order kinetic model offered the closest data to the experimental results (R2: 9893) compared to the pseudo-first-order, Elovich and Intraparticle diffusion models R2: 0.2335,0.1212 and 0.2050, respectively. The composite reusability and regeneration potential after four repeated cycles were found practically efficient as ≥ 68 % and ≥ 84 %, respectively. The outcomes of this study can demonstrate the efficiency of the formulated composite as a promising material for the sustainable treatment of chloride-contaminated water.

Topics & Concepts

Freundlich equationAdsorptionChlorideLangmuirChemical engineeringZeta potentialComposite numberLangmuir adsorption modelWastewaterCentral composite designMaterials scienceResponse surface methodologyNuclear chemistryNanoparticleChemistryEnvironmental engineeringComposite materialChromatographyMetallurgyNanotechnologyEnvironmental scienceOrganic chemistryEngineeringMXene and MAX Phase MaterialsAdvanced Photocatalysis TechniquesGraphene and Nanomaterials Applications
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