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Silver-Exchanged Clinoptilolite-Rich Natural Zeolite for Radon Removal from Air

Marin Șenilă, Oana Cadar, Róbert-Csaba Begy, Claudiu Tănăselia, Dorina Simedru, Cecilia Roman

2025Materials11 citationsDOIOpen Access PDF

Abstract

Radon (Rn) is a hazardous radioactive gas that poses significant health risks in enclosed indoor environments. This study investigates the potential of silver-exchanged clinoptilolite-rich natural zeolite (NZ-Ag+) for the removal of Rn from air. Natural zeolite (NZ) was thermally treated and further modified to enhance its adsorption characteristics. The thermally treated NZ (200 °C) was first exchanged in Na+ form, since Na+ is more easily exchanged in clinoptilolite with hydrated Ag+ ions than the other exchangeable cations. The modification with Ag+ was carried out at room temperature using ultrasonic processing to obtain (NZ-Ag+). The materials were characterized in terms of chemical composition, cation exchange capacity, mineralogy, total surface area, pore volume, and thermal behavior. Rn adsorption experiments were performed using a closed-circuit system, and the efficiency of NZ-Ag+ was compared with that of NZ. The results indicate that NZ-Ag+ exhibits superior Rn adsorption capacity, achieving up to 50% higher retention efficiency compared to NZ. The improved performance is attributed to enhanced adsorption facilitated by silver ion clusters interacting with radon atoms. These results suggest that silver-exchanged zeolite represents a promising material for radon mitigation in air filtration systems, with potential applications in residential and occupational settings.

Topics & Concepts

ClinoptiloliteZeoliteAdsorptionIon exchangeRadonVolume (thermodynamics)Materials scienceCation-exchange capacityWaste managementMineralogyChemical engineeringInorganic chemistryIonChemistryEnvironmental scienceSoil waterCatalysisOrganic chemistryQuantum mechanicsPhysicsEngineeringBiochemistrySoil scienceRadioactivity and Radon MeasurementsGraphite, nuclear technology, radiation studiesRadiation Shielding Materials Analysis