Morpho-chemical characterization and surface properties of carcinogenic zeolite fibers

•Differently carcinogenic zeolite fibers were investigated combining physico-chemical methods.•For the first time, zeolite fibers were studied by means of the EPR technique using different spin probes.•The structural properties and the adsorption capability are function of different types and distri...

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Bibliographic Details
Published in:Journal of hazardous materials 2016-04, Vol.306, p.140-148
Main Authors: Mattioli, Michele, Giordani, Matteo, Dogan, Meral, Cangiotti, Michela, Avella, Giuseppe, Giorgi, Rodorico, Dogan, A. Umran, Ottaviani, Maria Francesca
Format: Article
Language:English
Subjects:
Adsorption
Aggregates
Carcinogenicity
Carcinogens
Carcinogens - chemistry
Charging
EPR
Erionite and offretite
Microscopy, Electron, Scanning
Mineral fibers
Porosity
Powder Diffraction
Surface chemistry
Surface Properties
X-Ray Diffraction
Zeolites
Zeolites - chemistry
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Summary:•Differently carcinogenic zeolite fibers were investigated combining physico-chemical methods.•For the first time, zeolite fibers were studied by means of the EPR technique using different spin probes.•The structural properties and the adsorption capability are function of different types and distributions of adsorption sites.•The interacting ability of erionite is higher than that of other fibrous zeolites.•The surface interacting properties may be related with the carcinogenicity of the zeolite fibers. Erionite belonging to the zeolite family is a human health-hazard, since it was demonstrated to be carcinogenic. Conversely, offretite family zeolites were suspected carcinogenic. Mineralogical, morphological, chemical, and surface characterizations were performed on two erionites (GF1, MD8) and one offretite (BV12) fibrous samples and, for comparison, one scolecite (SC1) sample. The specific surface area analysis indicated a larger availability of surface sites for the adsorption onto GF1, while SC1 shows the lowest one and the presence of large pores in the poorly fibrous zeolite aggregates. Selected spin probes revealed a high adsorption capacity of GF1 compared to the other zeolites, but the polar/charged interacting sites were well distributed, intercalated by less polar sites (Si–O–Si). MD8 surface is less homogeneous and the polar/charged sites are more interacting and closer to each other compared to GF1. The interacting ability of BV12 surface is much lower than that found for GF1 and MD8 and the probes are trapped in small pores into the fibrous aggregates. In comparison with the other zeolites, the non-carcinogenic SC1 shows a poor interacting ability and a lower surface polarity. These results helped to clarify the chemical properties and the surface interacting ability of these zeolite fibers which may be related to their carcinogenicity.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2015.11.015