Evaluation of synthesis conditions for plastic scintillation foils used to measure alpha- and beta-emitting radionuclides

Merín, R.; Tarancón, A.; Mitev, K.; Georgiev, S.; Dutsov, Chavdar; Bagán, H.; Garcı́a, J.F.

doi:10.1007/s10967-018-6341-z

Cited by 8 publications

(3 citation statements)

References 20 publications

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“…All these materials are prepared in the same way, that is to say the thermally induced radical polymerization of the corresponding monomer to the polymer. Hence, starting the preparation directly from the polymer is rather unusual and is typically encountered when scintillators are prepared either from extrusion of polymer pellets, for thin film or microsphere production, or more recently by 3D‐printing techniques …”

Section: Introductionmentioning

confidence: 99%

Attempting to prepare a plastic scintillator from a biobased polymer

Lebouteiller¹

2019

J of Applied Polymer Sci

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A new plastic scintillator was prepared from a renewable polymer source. It is composed of the mighty 2,5‐diphenyloxazole and 1, 4‐bis(2‐methylstyryl)benzene molecules (PPO and bis‐MSB), acting as primary and secondary fluorophores, respectively, together dissolved in a polylactic acid matrix—PLA. This polymer is indeed considered as the biomass‐based equivalent of petroleum‐derived plastics in terms of mechanical and optical properties. Subsequent to the bis‐MSB emission, the emission wavelength is centered around 424 nm and the fluorescence decay time is in the nanosecond range. The material was fully characterized, and its scintillation performances were compared to a commercial PVT‐based plastic scintillator: EJ‐200. Like polystyrene‐ or polyvinyltoluene‐based scintillators, the material displayed a good response linearity with the energy of the incident gamma‐ray. However, the observed scintillation yield was rather modest, with a reported 500 ph/MeV value when excited with a gamma‐ray‐emitting 60Co source. This preliminary test could pave the way to new and renewable polymers for unexpected applications such as nuclear physics. © 2019 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2020, 137, 48724.

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Section: Introductionmentioning

confidence: 99%

Attempting to prepare a plastic scintillator from a biobased polymer

Lebouteiller¹

2019

J of Applied Polymer Sci

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show abstract

“…Most microfluidic radionuclide detector prototypes place the detector on top of the microfluidic channels [13,30,34,35] to expose the detector to as much fluid surface area as possible. In contrast, some High Energy Physics (HEP) applications have successfully placed the multi-anode PMTs perpendicular to metallised channels acting as optical waveguides [31,32].…”

Section: Finite Element Analysis Of Microfluidic Systemmentioning

confidence: 99%

“…The most common radiometric LoCs detection method is optical, utilising either the Cherenkov effect or scintillation-based methods for photon production [29][30][31][32]. Factors affecting overall sensor efficiency, including detector performance [12], scintillator efficiency [33,34], and microfluidic chip materials [13], have already been considered elsewhere [13,14,35,36]. Cho et al previously [37] assessed the impact of channel geometry on overall sensor efficiency in the context of a radiometric LoC system for 18 F-labeled compounds.…”

Section: Introductionmentioning

confidence: 99%