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Please use this identifier to cite or link to this item: https://libeldoc.bsuir.by/handle/123456789/42232
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dc.contributor.authorXu, Z.-
dc.contributor.authorSato, T.-
dc.contributor.authorBenincasa, L.-
dc.contributor.authorYamashita, Y.-
dc.contributor.authorDeng, T.-
dc.contributor.authorGotoh, K.-
dc.contributor.authorToko, K.-
dc.contributor.authorUsami, N.-
dc.contributor.authorFilonov, A. B.-
dc.contributor.authorMigas, D. B.-
dc.contributor.authorShohonov, D. A.-
dc.contributor.authorSuemasu, T.-
dc.date.accessioned2020-12-29T11:53:24Z-
dc.date.available2020-12-29T11:53:24Z-
dc.date.issued2020-
dc.identifier.citationAtomic hydrogen passivation for photoresponsivity enhancement of boron-doped p-BaSi2 films and performance improvement of boron-doped p-BaSi2/n-Si heterojunction solar cells / Z. Xu [et al.] // Journal of Applied Physics. – 2020. – Vol. 127, № 23. – P. 233104. – DOI: 10.1063/5.0005763.ru_RU
dc.identifier.urihttps://libeldoc.bsuir.by/handle/123456789/42232-
dc.description.abstractSemiconducting barium disilicide (BaSi2) is an emerging material for solar cell applications, and therefore, defect passivation is critical for improving its solar cell performance. Herein, the effect of atomic hydrogen (H) on the photoresponsivity of 500 nm-thick boron (B)-doped p-BaSi2 films was examined. The photoresponsivity reached ∼4 A/W (about twice the highest reported value for H-passivated undoped BaSi2 films) in B-doped p-BaSi2 films exposed to an atomic H supply for 5 − 10 min because of an increased minority-carrier lifetime, as measured by the microwave-detected photoconductivity decay. Furthermore, a ≥15 min atomic H supply was found to degrade photoresponsivity. Ab initio studies were used to interpret and understand experimental observations by analyzing states in the gap region, which can act as traps, in B-doped p-BaSi2 with H incorporation. The effect that atomic H had on the performance of B-doped p-BaSi2/n-Si heterojunction solar cells was also studied. The saturation current density was found to decrease by three orders of magnitude with the atomic H supply, and the conversion efficiency was increased up to 6.2%. Deep-level transient spectroscopy revealed a reduction of defect densities induced by the atomic H supply. Both experimental and theoretical viewpoints show that an atomic H supply is beneficial for BaSi2 solar cells.ru_RU
dc.language.isoenru_RU
dc.publisherAmerican Institute of Physicsru_RU
dc.subjectпубликации ученыхru_RU
dc.subjectSemiconducting barium disilicideru_RU
dc.subjectdopingru_RU
dc.subjectphotoresponsivityru_RU
dc.subjecttrap formationru_RU
dc.titleAtomic hydrogen passivation for photoresponsivity enhancement of boron-doped p-BaSi2 films and performance improvement of boron-doped p-BaSi2/n-Si heterojunction solar cellsru_RU
dc.typeСтатьяru_RU
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