External Quantum Efficiency of Bifacial HIT Solar Cells

Ermachikhin, A. V.; Vorobyov, Yu. V.; Maslov, A. D.; Trusov, E. P.; Litvinov, V. G.

doi:10.1134/s1063782620100085

Cited by 3 publications

(1 citation statement)

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“…In the short-wavelength region, the MoS2/Si heterojunction appears to lead to a gain in EQE, as compared with standard devices [4,25]. We attribute that gain to the high bandgap of MoS2, which limits parasitic absorption.…”

Section: =mentioning

confidence: 80%

Study of MoS2 Deposited by ALD on c-Si, Towards the Development of MoS2/c-Si Heterojunction Photovoltaics

et al. 2022

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Silicon-based heterojunction (SHJ) solar cells demonstrate high efficiencies over their homojunction counterparts, revealing the potential of such technologies. We present here the first steps towards the development of molybdenum disulfide (MoS2)/c-silicon heterojunction solar cells, consisting of a preliminary study of the MoS2 material and numerical device simulations of MoS2/Si heterojunction solar cells, using SILVACO ATLAS. Through the optical and structural characterization of MoS2/SiO2/Si samples, we found a significant sensitivity of the MoS2 to ambient oxidation. Optical ellipsometry showed a bandgap of 1.87 eV for a 7 monolayer thick MoS2 sample, suitable for the targeted application. Finally, we briefly introduce a device simulation and show that the MoS2/Si heterojunction could lead to a gain in quantum efficiency, especially in the region with short wavelengths, compared with a standard a-Si/c-Si solar cell.

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Section: =mentioning

confidence: 80%

Study of MoS2 Deposited by ALD on c-Si, Towards the Development of MoS2/c-Si Heterojunction Photovoltaics

et al. 2022

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Investigation of HIT solar cells low frequency noise characteristics

Ermachikhin

Vorobyov

Trusov

et al. 2021

J. Phys.: Conf. Ser.

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The effect of solar cell fragment annealing on its noise characteristics is shown. The calculated difference in relaxation times arising from the change in noise after annealing was 30%. Measurements of noise characteristics in the dark and under illumination with a red laser with different radiation power were carried out. Close to linear dependences of noise power reduction with increasing radiation power were obtained.

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