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Simultaneous and synergistic removal of Cu²⁺ and methylene blue from aqueous solution using ZIF-8-decorated diatomite/alginate/polyvinyl alcohol hydrogel beads

Arezoo Ahmadi Bonakdar, Gholamreza Pircheraghi, Alireza Kaviani

2025Results in Engineering5 citationsDOIOpen Access PDF

Abstract

• ZIF-8-decorated diatomite is facilely synthesized. • ZIF@diatomite particles were incorporated in alginate/ PVA hydrogel beads. • A sixfold increase was observed in the BET surface area of ZIF-8@diatomite. • Simultaneous removal efficiencies of ∼70% for MB and ∼91% for Cu²⁺ were achieved. • Hybrid hydrogel beads offer a scalable strategy for co-existing pollutant removal. Efficient wastewater treatment requires simultaneous removal of coexisting contaminants such as dyes and heavy metals. Natural polymer-based hybrid hydrogels offer stability, low toxicity, and biodegradability, yet most studies still focus on single-pollutant systems or specific nanoparticles. To address this, hybridized ZIF-8/diatomite incorporated into alginate/polyvinyl alcohol (PVA) hydrogel beads were developed for simultaneous adsorption of Cu²⁺ and methylene blue, offering a novel approach for multi-pollutant wastewater treatment. The beads were characterized using FE-SEM, XRD, FTIR, and BET surface area analysis. Hybridization with ZIF-8 significantly enhanced the surface area of diatomite from 6.2 to 36.3 m²/g. The resulting hydrogel beads were systematically characterized to assess their swelling behavior, mechanical stability, and adsorption performance. The ZIF@diatomite incorporated alginate and PVA beads (PAZDH) exhibited a swelling ratio of approximately 200% and maintained their mechanical integrity when subjected to mechanical waves for 8 min, up to 70%. In the single-pollutant system, samples with higher diatomite content were more effective for MB removal (up to 92%), while Cu²⁺ adsorption was enhanced in samples containing both ZIF-8 and diatomite functional groups (95%). The PAZDH beads achieved 94% MB and 93.5% Cu²⁺ removal in the single-pollutant system. In the simultaneous adsorption of both pollutants, PAZDH demonstrated a balanced performance, achieving 91% removal of Cu²⁺ and 63% removal of MB. Adsorption kinetics of PAZDH sample followed pseudo-first-order and pseudo-second-order models for MB and Cu²⁺ removal, respectively. These findings suggest that hybrid hydrogel beads offer an efficient, eco-friendly solution for wastewater treatment, effectively removing both organic dyes and heavy metal ions.

Topics & Concepts

AdsorptionSelf-healing hydrogelsSwellingAqueous solutionMethylene blueChemistryWastewaterChemical engineeringResponse surface methodologyChromatographyKineticsVinyl alcoholSpecific surface areaBeadNuclear chemistrySewage treatmentWater treatmentPolyvinyl alcoholBiodegradationMaterials scienceGraftingAdsorption and biosorption for pollutant removalHydrogels: synthesis, properties, applicationsPhosphorus and nutrient management
Simultaneous and synergistic removal of Cu²⁺ and methylene blue from aqueous solution using ZIF-8-decorated diatomite/alginate/polyvinyl alcohol hydrogel beads | Litcius