Synthesis of bulk-size transparent gadolinium oxide-polymer nanocomposites for gamma ray spectroscopy

Wen Cai; Qi Chen; Nerine Cherepy; Alex Dooraghi; David Kishpaugh; Arion Chatziioannou; Stephen Payne; Weidong Xiang; Qibing Pei

doi:10.1039/c2tc00245k

Synthesis of bulk-size transparent gadolinium oxide-polymer nanocomposites for gamma ray spectroscopy

Wen Cai, Qi Chen, Nerine Cherepy, Alex Dooraghi, David Kishpaugh, Arion Chatziioannou, Stephen Payne, Weidong Xiang, Qibing Pei^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

66 Citations (Scopus)

Abstract

Heavy element loaded polymer composites have long been proposed to detect high energy X- and γ-rays upon scintillation. The previously reported bulk composite scintillators have achieved limited success because of the diminished light output resulting from fluorescence quenching and opacity. We demonstrate the synthesis of a transparent nanocomposite comprising gadolinium oxide nanocrystals uniformly dispersed in bulk-size samples at a high loading content. The strategy to avoid luminescence quenching and opacity in the nanocomposite was successfully deployed, which led to the radioluminescence light yield of up to 27 000/MeV, about twice as much as standard commercial plastic scintillators. Nanocomposites monoliths (14 mm diameter by 3 mm thickness) with 31 wt% loading of nanocrystals generated a photoelectric peak for Cs-137 gamma (662 keV) with 11.4% energy resolution.

Original language	English
Pages (from-to)	1970-1976
Number of pages	7
Journal	Journal of Materials Chemistry C
Volume	1
Issue number	10
DOIs	https://doi.org/10.1039/c2tc00245k
Publication status	Published - 14 Mar 2013
Externally published	Yes

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abstract = "Heavy element loaded polymer composites have long been proposed to detect high energy X- and γ-rays upon scintillation. The previously reported bulk composite scintillators have achieved limited success because of the diminished light output resulting from fluorescence quenching and opacity. We demonstrate the synthesis of a transparent nanocomposite comprising gadolinium oxide nanocrystals uniformly dispersed in bulk-size samples at a high loading content. The strategy to avoid luminescence quenching and opacity in the nanocomposite was successfully deployed, which led to the radioluminescence light yield of up to 27 000/MeV, about twice as much as standard commercial plastic scintillators. Nanocomposites monoliths (14 mm diameter by 3 mm thickness) with 31 wt% loading of nanocrystals generated a photoelectric peak for Cs-137 gamma (662 keV) with 11.4% energy resolution.",

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AU - Cai, Wen

AU - Chen, Qi

AU - Cherepy, Nerine

AU - Dooraghi, Alex

AU - Kishpaugh, David

AU - Chatziioannou, Arion

AU - Payne, Stephen

AU - Xiang, Weidong

AU - Pei, Qibing

PY - 2013/3/14

Y1 - 2013/3/14

N2 - Heavy element loaded polymer composites have long been proposed to detect high energy X- and γ-rays upon scintillation. The previously reported bulk composite scintillators have achieved limited success because of the diminished light output resulting from fluorescence quenching and opacity. We demonstrate the synthesis of a transparent nanocomposite comprising gadolinium oxide nanocrystals uniformly dispersed in bulk-size samples at a high loading content. The strategy to avoid luminescence quenching and opacity in the nanocomposite was successfully deployed, which led to the radioluminescence light yield of up to 27 000/MeV, about twice as much as standard commercial plastic scintillators. Nanocomposites monoliths (14 mm diameter by 3 mm thickness) with 31 wt% loading of nanocrystals generated a photoelectric peak for Cs-137 gamma (662 keV) with 11.4% energy resolution.

AB - Heavy element loaded polymer composites have long been proposed to detect high energy X- and γ-rays upon scintillation. The previously reported bulk composite scintillators have achieved limited success because of the diminished light output resulting from fluorescence quenching and opacity. We demonstrate the synthesis of a transparent nanocomposite comprising gadolinium oxide nanocrystals uniformly dispersed in bulk-size samples at a high loading content. The strategy to avoid luminescence quenching and opacity in the nanocomposite was successfully deployed, which led to the radioluminescence light yield of up to 27 000/MeV, about twice as much as standard commercial plastic scintillators. Nanocomposites monoliths (14 mm diameter by 3 mm thickness) with 31 wt% loading of nanocrystals generated a photoelectric peak for Cs-137 gamma (662 keV) with 11.4% energy resolution.

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Synthesis of bulk-size transparent gadolinium oxide-polymer nanocomposites for gamma ray spectroscopy

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