Timothy A. DeVol scite author profile

A preliminary investigation of the scintillation response of rare earth-doped fluoride nanoparticles is reported. Nanoparticles of CaF2 : Eu, BaF2 : Ce, and LaF3 : Eu were produced by precipitation methods using ammonium di-n-octadecyldithiophosphate (ADDP) as a ligand that controls growth and lessens agglomeration. The structure and morphology were characterized by means of X-ray diffraction and transmission electron microscopy, while the scintillation properties of the nanoparticles were determined by means of X-ray and241Am irradiation. The unique aspect of scintillation of nanoparticles is related to the migration of carriers in the nanoscintillator. Our results showed that even nanoparticles as small as ~4 nm in size effectively scintillate, despite the diffusion length ofe-hpairs being considerably larger than the nanoparticles themselves, and suggest that nanoparticles can be used for radiation detection.

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Timothy A. DeVol

Characterization of a TeflonÒcoated semiconductor detector flow cell for monitoring of pertechnetate in groundwater

Radionuclide Sensors for Environmental Monitoring: From Flow Injection Solid-Phase Absorptiometry to Equilibration-Based Preconcentrating Minicolumn Sensors with Radiometric Detection

On-line gross alpha radiation monitoring of natural waters with extractive scintillating resins

Fluoride Nanoscintillators

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