Ayman F. Seliman scite author profile

The present study was oriented to prepare new scintillating anion-exchange resins for measurement of (99)TcO(4)(-) in natural waters. The organic fluor 2-(1-naphthyl)-5-phenyloxazole was diffused into (chloromethyl)polystyrene resin. Thereafter, a thin layer of poly[[2-(methacryloyloxy)ethyl]trimethylammonium chloride] was grafted from the resin surface by surface-initiated atom transfer radical polymerization as an attempt to overcome potential problems related to the leaching of fluor molecules during usage. The residual chloromethyl groups of the polymer-coated resin were aminated by reaction with two different tertiary amines, triethylamine (TEA) and methyldioctylamine (MDOA). Off- and on-line quantification of (99)Tc was achieved with high detection efficiencies of 60.72 ± 1.93% and 72.83 ± 0.81% for resin with TEA and MDOA functional groups, respectively. The detection limit was determined to be less than the maximum contaminant level (33 Bq L(-1)) established under the Safe Drinking Water Act. The two functionalized resins were demonstrated to be selective for pertechnetate from synthetic groundwater containing up to 1000 ppm Cl(-), SO(4)(2-), and HCO(3)(-) and up to 1200 ppb Cr(2)O(7)(2-) in an acidic medium.

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Stable and selective scintillating anion-exchange sensors for quantification of 99TcO4− in natural freshwaters

Seliman

Helariutta

Wiktorowicz

et al. 2013

Journal of Environmental Radioactivity

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High porosity scintillating polymer resins for ionizing radiation sensor applications

Bliznyuk

Duval

Apul

et al. 2015

Polymer

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Ayman F. Seliman

Removal of some radionuclides from contaminated solution using natural clay: bentonite

Utilization of natural chabazite and mordenite as a reactive barrier for immobilization of hazardous heavy metals

Preparation of Polymer-Coated, Scintillating Ion-Exchange Resins for Monitoring of ⁹⁹Tc in Groundwater

Stable and selective scintillating anion-exchange sensors for quantification of 99TcO4− in natural freshwaters

High porosity scintillating polymer resins for ionizing radiation sensor applications

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About

Ayman F. Seliman

Removal of some radionuclides from contaminated solution using natural clay: bentonite

Utilization of natural chabazite and mordenite as a reactive barrier for immobilization of hazardous heavy metals

Preparation of Polymer-Coated, Scintillating Ion-Exchange Resins for Monitoring of 99Tc in Groundwater

Stable and selective scintillating anion-exchange sensors for quantification of 99TcO4− in natural freshwaters

High porosity scintillating polymer resins for ionizing radiation sensor applications

Contact Info

Product

Resources

About

Preparation of Polymer-Coated, Scintillating Ion-Exchange Resins for Monitoring of ⁹⁹Tc in Groundwater