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2664610 
Journal Article 
Radioluminescent nuclear batteries with different phosphor layers 
Hong, L; Tang, XBin; Xu, ZhiH; Liu, YunP; Chen, Da 
2014 
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
ISSN: 0168-583X 
338 
112-118 
WOS:000343390400017 
A radioluminescent nuclear battery based on the beta radioluminescence of phosphors is presented, and which consists of Pm-147 radioisotope, phosphor layers, and GaAs photovoltaic cell. ZnS:Cu and Y2O2S:Eu phosphor layers for various thickness were fabricated. To investigate the effect of phosphor layer parameters on the battery, the electrical properties were measured. Results indicate that the optimal thickness ranges for the ZnS:Cu and Y2O2S:Eu phosphor layers are 12 mg cm(-2) to 14 mg cm(-2) and 17 mg cm(-2) to 21 mg cm(-2), respectively. ZnS:Cu phosphor layer exhibits higher fluorescence efficiency compared with the Y2O2S:Eu phosphor layer. Its spectrum properly matches the spectral response of GaAs photovoltaic cell. As a result, the battery with ZnS:Cu phosphor layer indicates higher energy conversion efficiency than that with Y2O2S:Eu phosphor layer. Additionally, the mechanism of the phosphor layer parameters that influence the output performance of the battery is discussed through the Monte Carlo method and transmissivity test. (C) 2014 Elsevier B.V. All rights reserved. 
GaAs photovoltaic cell; Beta radioluminescence nuclear battery; Phosphor layer; Monte Carlo method; Shockley diode equation