Role of Zeolite Structural Properties toward Iodine Capture: A Head-to-head Evaluation of Framework Type and Chemical Composition.
Brian J RileySaehwa ChongJulian SchmidJosé MarcialEmily T NienhuisMrinal K BeraSungsik LeeNathan L CanfieldSung Min KimMiroslaw A DerewinskiRadha Kishan MotkuriPublished in: ACS applied materials & interfaces (2022)
This study evaluated zeolite-based sorbents for iodine gas [I 2(g) ] capture. Based on the framework structures and porosities, five zeolites, including two faujasite (FAU), one ZSM-5 (MFI), one mesoMFI, one ZSM-22 (TON), as well as two mesoporous materials, were evaluated for I 2(g) capture at room temperature and 150 °C in an iodine-saturated environment. From these preliminary studies, the three best-performing zeolites were ion-exchanged with Ag + and evaluated for I 2(g) capture under similar conditions. Energy-dispersive X-ray spectroscopy data suggest that Ag-FAU frameworks were the materials with the highest capacity for I 2(g) in this study, showing ∼3× higher adsorption compared to Ag-mordenite (Ag-MOR) at room temperature, but X-ray diffraction measurements show that the faujasite structure collapsed during the adsorption studies because of dealumination. The Ag-MFI zeolites are decent sorbents in real-life applications, showing both good sorption capacities and higher stability. In-depth analyses and characterizations, including synchrotron X-ray absorption spectroscopy, revealed the influence of structural and chemical properties of zeolites on the performance for iodine adsorption from the gas phase.
Keyphrases
- room temperature
- dual energy
- high resolution
- ionic liquid
- quantum dots
- computed tomography
- highly efficient
- visible light
- magnetic resonance imaging
- aqueous solution
- single molecule
- mass spectrometry
- machine learning
- optical coherence tomography
- case control
- electron microscopy
- simultaneous determination
- data analysis
- gas chromatography
- carbon dioxide
- anaerobic digestion
- sewage sludge