The potential of using Li-ion batteries for radiation detection

Jie Qiu; Lei Cao; Padhraic Mulligan; Danyal Turkoglu; Shrikant C. Nagpure; Marcello Canova; Anne Co

doi:10.1109/TNS.2012.2231097

The potential of using Li-ion batteries for radiation detection

Jie Qiu, Lei Cao, Padhraic Mulligan, Danyal Turkoglu, Shrikant C. Nagpure, Marcello Canova, Anne Co

Nuclear and Extreme Environment Measurem

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

7 Scopus citations

Abstract

This work describes the measurement of the change in current of two types of Li-ion batteries, both commercial off-the-shelf and in-house-assembled coin cells, under radiation exposure. The discharging batteries were irradiated with a neutron beam with a 30-mm diameter (adjustable to 10 mm and 5 mm) using the Ohio State University Research Reactor and was measured for the change of electric current with a Keithley SourceMeter. We have observed an increase in current when the batteries were exposed to gamma rays and a decrease in current when only thermal neutrons were applied. We discussed the mechanisms that are responsible for inducing such changes, including the electrode polarization caused by irradiation. The immediate application of a single coin cell in a current mode can be a small neutron or gamma-beam monitor or a near-core flux monitor in a high-flux environment.

Original language	English
Article number	6412744
Pages (from-to)	662-667
Number of pages	6
Journal	IEEE Transactions on Nuclear Science
Volume	60
Issue number	2
DOIs	https://doi.org/10.1109/TNS.2012.2231097
State	Published - 2013

Keywords

Coin cell
Flux monitor
Li-ion battery
Neutron sensor
Radiation detection

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10.1109/TNS.2012.2231097

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title = "The potential of using Li-ion batteries for radiation detection",

abstract = "This work describes the measurement of the change in current of two types of Li-ion batteries, both commercial off-the-shelf and in-house-assembled coin cells, under radiation exposure. The discharging batteries were irradiated with a neutron beam with a 30-mm diameter (adjustable to 10 mm and 5 mm) using the Ohio State University Research Reactor and was measured for the change of electric current with a Keithley SourceMeter. We have observed an increase in current when the batteries were exposed to gamma rays and a decrease in current when only thermal neutrons were applied. We discussed the mechanisms that are responsible for inducing such changes, including the electrode polarization caused by irradiation. The immediate application of a single coin cell in a current mode can be a small neutron or gamma-beam monitor or a near-core flux monitor in a high-flux environment.",

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AU - Qiu, Jie

AU - Cao, Lei

AU - Mulligan, Padhraic

AU - Turkoglu, Danyal

AU - Nagpure, Shrikant C.

AU - Canova, Marcello

AU - Co, Anne

PY - 2013

Y1 - 2013

N2 - This work describes the measurement of the change in current of two types of Li-ion batteries, both commercial off-the-shelf and in-house-assembled coin cells, under radiation exposure. The discharging batteries were irradiated with a neutron beam with a 30-mm diameter (adjustable to 10 mm and 5 mm) using the Ohio State University Research Reactor and was measured for the change of electric current with a Keithley SourceMeter. We have observed an increase in current when the batteries were exposed to gamma rays and a decrease in current when only thermal neutrons were applied. We discussed the mechanisms that are responsible for inducing such changes, including the electrode polarization caused by irradiation. The immediate application of a single coin cell in a current mode can be a small neutron or gamma-beam monitor or a near-core flux monitor in a high-flux environment.

AB - This work describes the measurement of the change in current of two types of Li-ion batteries, both commercial off-the-shelf and in-house-assembled coin cells, under radiation exposure. The discharging batteries were irradiated with a neutron beam with a 30-mm diameter (adjustable to 10 mm and 5 mm) using the Ohio State University Research Reactor and was measured for the change of electric current with a Keithley SourceMeter. We have observed an increase in current when the batteries were exposed to gamma rays and a decrease in current when only thermal neutrons were applied. We discussed the mechanisms that are responsible for inducing such changes, including the electrode polarization caused by irradiation. The immediate application of a single coin cell in a current mode can be a small neutron or gamma-beam monitor or a near-core flux monitor in a high-flux environment.

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The potential of using Li-ion batteries for radiation detection

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