Efficiency analysis of betavoltaic elements

Sachenko, A. V.; Shkrebtii, A.; Korkishko, R.M.; Kostylyov, V. P.; Kulish, M.R.; Sokolovskyi, I.O.

doi:10.1016/j.sse.2015.05.042

Cited by 24 publications

(7 citation statements)

References 18 publications

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“…The obtained value of the diffusion length agrees well with earlier reported data for CVD diamond films and bulk diamonds ranging from several to 100 μ . In diamond, EHPs have longer lifetimes compared to other conversion materials . It happens due to low defects concentration and indirect bandgap of diamond.…”

Section: Resultssupporting

confidence: 90%

Comparative study of different metals for Schottky barrier diamond betavoltaic power converter by EBIC technique

Тарелкин

Бормашов

Коростылев

et al. 2016

Physica Status Solidi (a)

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In order to improve the performance of betavoltaic converters based on synthetic IIb diamond Schottky structure, we performed comparative studies of converters with Al, Hf, Pt, and Au metals forming the Schottky barrier by means of the electron beam-induced current (EBIC) method. Nearly full collection of generated electron-hole pairs was found for all fabricated structures. The aluminum contact showed the lowest energy loses due to negligible electrons absorption and backscattering. But the conversion efficiency of the Al-contact Schottky diode was just about 2% because of its low opencircuit voltage. We attributed the reduction of the Schottky barrier height to local defects observed by EBIC. The diamond cells with platinum contact showed the best performance of about 6% with a relatively high open-circuit voltage >1 V and a good incident beam multiplication factor. Thereby platinum forms the most stable and effective Schottky barrier contact for diamond betavoltaic cells.

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Section: Resultssupporting

confidence: 90%

Comparative study of different metals for Schottky barrier diamond betavoltaic power converter by EBIC technique

Тарелкин

Бормашов

Коростылев

et al. 2016

Physica Status Solidi (a)

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“…To determine the expected efficiency of our device, the energy capture efficiency of the nanowire geometry was determined. The overall device efficiency ( T h ) of a betavoltaic converter is given by [22] (see supporting information):…”

Section: Resultsmentioning

confidence: 99%

GaP nanowire betavoltaic device

McNamee¹,

Wagner²,

Fiordaliso³

et al. 2018

Nanotechnology

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A betavoltaic device is reported that directly converts beta energy from a 63Ni radioisotope into electrical energy by impact ionization in a GaP nanowire array. The GaP nanowires are grown in a periodic array by molecular beam epitaxy on silicon using the self-assisted vapor–liquid–solid method. By growing GaP nanowires with large packing fraction and length on the order of the maximum beta range, the nanowires can efficiently capture the betas with high energy conversion efficiency while using inexpensive Si substrates. Monte Carlo simulations predict a betavoltaic efficiency in agreement with experimental results. The nanowire betavoltaic device can be used as a power source for nano-/micro-systems such as mobile electronic devices, implantable medical devices, and wireless sensor networks.

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“…The maximum efficiency of manufactured silicon cells and modules is equal to 25 and 22.9%, respectively and η= 42.3% at 406 suns of the light intensity [9]. The maximum efficiency can be obtained at the level 45% for the solar cells [10]. The reduced temperature dependence of high-concentration photovoltaic solar cell open-circuit voltage, V oc at high concentration levels and Influence of temperature on the performance of photovoltaic polycrystalline silicon module in the Bruneian climate are investigated in previous works [11] and [12], respectively.…”

Section: Introductionmentioning

confidence: 93%

Hydrogen Energy paper 3

2018

Proceeding of 2018 the Fourth International Symposium on Hydrogen Energy, Renewable Energy and Materials

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In this work, we have analyzed the characteristic J-V of vertical multijunction (VMJ) solar cells. We offered a design of a monolithic compact solar module with cells electrically connected in series. The extracting the electrical parameters of multi-junction solar cells from characteristics data J-V which such as: J 0 , saturation current density; R s , series resistance; R sh , shunt resistance; n, ideality factor and J ph , photo current density are obtained with light concentration is given. We have developed the program code for the analysis with a nonlinear least-square method. We have found that the algorithm results in a stable convergence and the experimental results on the photo current voltage (J,V)characteristics can be reliably reproduced using the extraction electrical parameters using nonlinear least-square method. It was founded untraditional depends shunt resistance from sun concentration. We suggest some mechanism physics explaining of this phenomenon. We see when increase the concentration the efficiency η increasing. We have achieved high-voltage silicon solar modules with voltage up to 25.491 V at 500 suns.

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Efficiency analysis of betavoltaic elements

Cited by 24 publications

References 18 publications

Comparative study of different metals for Schottky barrier diamond betavoltaic power converter by EBIC technique

Comparative study of different metals for Schottky barrier diamond betavoltaic power converter by EBIC technique

GaP nanowire betavoltaic device

Hydrogen Energy paper 3

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