Sergey Terentiev scite author profile

We designed, fabricated, and tested for the first time a prototype of nuclear micropower battery with an overall active area about 15 cm 2 consisted in 130 single cells based on Schottky barrier diamond diodes. Diodes selection for the battery assembly was performed on the basis of I-V curves measurements at electron beam irradiation in SEM. A typical energy conversion efficiency of each cell was about 4-6%. To characterize a battery prototype performance, we carried out photovoltaic measurements using different radioisotopes. Under irradiation by 63 Ni source with activity of 5 mCi cm À2 , the output power density of 3 nW cm À2 was obtained. Due to large energy loss of the emitted b particles in source itself, the total battery efficiency was only 0.6%. However, with the longlived 63 Ni isotope, this already gives the battery specific energy of about 120 W Á hr/kg, comparable with the commercial chemical cells. During experiments with high activity 90 Sr-90 Y source, no degradation was observed after 1,400 h of the radiation exposure. The maximum output power density of 2.4 mW cm À2 was achieved using 238 Pu a source. The results display that synthetic diamond is a highly promising material for nuclear microbattery fabrication. A strategy to further cell optimization is also discussed.

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The influence of crystallization temperature and boron concentration in growth environment on its distribution in growth sectors of type IIb diamond

Бланк

Кузнецов

Nosukhin

et al. 2007

Diamond and Related Materials

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Power high-voltage and fast response Schottky barrier diamond diodes

Бланк

Бормашов

Тарелкин

et al. 2015

Diamond and Related Materials

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High power density nuclear battery prototype based on diamond Schottky diodes

Бормашов

Troschiev

Тарелкин

et al. 2018

Diamond and Related Materials

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Ultrasmall diamond nanoparticles with unusual incompressibility

Popov

Churkin

Ovsyannikov

et al. 2019

Diamond and Related Materials

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