Scintillating materials emit light when exposed to ionizing radiation or particles and are used for the detection of nuclear threats, medical imaging, high-energy physics, and other usages. For some of these applications, it is vital to distinguish neutrons and charged particles from gamma-rays. This is achievable by pulse shape discrimination (PSD), a time-gated technique, which exploits that the scintillation kinetics can depend on the nature of the incident radiation. However, it proves difficult to realize efficient PSD with plastic scintillators, which have several advantages over liquid or crystalline scintillating materials, including mechanical robustness and shapeability. It is shown here that sensitive and rapid PSD is possible with nanostructured polymer scintillators that consist of a solid polymer matrix and liquid nanodomains in which an organic dye capable of triplet-triplet annihilation (TTA) is dissolved. The liquid nature of the nanodomains renders TTA highly efficient so that delayed fluorescence can occur at low energy density. The nanostructured polymer scintillators allow discriminating alpha particles, neutrons, and gamma-rays with a time response that is better than that of commercial scintillators. Exploiting that the liquid nanodomains can facilitate energy transfer processes otherwise difficult to realize in solid polymers, an auxiliary triplet sensitizer is incorporated. This approach further increases the scintillator's sensitivity toward alpha particles and neutrons and other high-energy processes where localized interactions are involved.Nanostructured polymer scintillators embedding liquid nanodomains where triplet-triplet annihilation dye capable and a triplet sensitizer are dissolved allow discriminating alpha particles, neutrons, and gamma-rays with a better time response than commercial scintillators. image
Hu, X., Rigamonti, D., Villa, I., Pollice, L., Mauri, M., Molin, A., et al. (2024). Sensitized Triplet–Triplet Annihilation in Nanostructured Polymeric Scintillators Allows for Pulse Shape Discrimination. ADVANCED MATERIALS [10.1002/adma.202400443].
Sensitized Triplet–Triplet Annihilation in Nanostructured Polymeric Scintillators Allows for Pulse Shape Discrimination
Rigamonti, Davide;Villa, Irene;Pollice, Luca;Mauri, Michele;Molin, Andrea Dal;Tardocchi, Marco;Meinardi, Francesco;Monguzzi, Angelo
Ultimo
2024
Abstract
Scintillating materials emit light when exposed to ionizing radiation or particles and are used for the detection of nuclear threats, medical imaging, high-energy physics, and other usages. For some of these applications, it is vital to distinguish neutrons and charged particles from gamma-rays. This is achievable by pulse shape discrimination (PSD), a time-gated technique, which exploits that the scintillation kinetics can depend on the nature of the incident radiation. However, it proves difficult to realize efficient PSD with plastic scintillators, which have several advantages over liquid or crystalline scintillating materials, including mechanical robustness and shapeability. It is shown here that sensitive and rapid PSD is possible with nanostructured polymer scintillators that consist of a solid polymer matrix and liquid nanodomains in which an organic dye capable of triplet-triplet annihilation (TTA) is dissolved. The liquid nature of the nanodomains renders TTA highly efficient so that delayed fluorescence can occur at low energy density. The nanostructured polymer scintillators allow discriminating alpha particles, neutrons, and gamma-rays with a time response that is better than that of commercial scintillators. Exploiting that the liquid nanodomains can facilitate energy transfer processes otherwise difficult to realize in solid polymers, an auxiliary triplet sensitizer is incorporated. This approach further increases the scintillator's sensitivity toward alpha particles and neutrons and other high-energy processes where localized interactions are involved.Nanostructured polymer scintillators embedding liquid nanodomains where triplet-triplet annihilation dye capable and a triplet sensitizer are dissolved allow discriminating alpha particles, neutrons, and gamma-rays with a better time response than commercial scintillators. imageFile | Dimensione | Formato | |
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Monguzzi-2024-Advanced Materials-AAM.pdf
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