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Limodio, G. (author), Yang, G. (author), Ge, H. (author), Procel Moya, P.A. (author), de Groot, Y. (author), Mazzarella, L. (author), Isabella, O. (author), Zeman, M. (author)
hole collector and an i/n hydrogenated amorphous silicon (a-Si:H) stack acting as electron collector placed on the...
journal article 2019
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Procel Moya, P.A. (author), Yang, G. (author), Isabella, O. (author), Zeman, M. (author)
)....
journal article 2018
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Yang, G. (author), Guo, Peiqing (author), Procel Moya, P.A. (author), Limodio, G. (author), Weeber, A.W. (author), Isabella, O. (author), Zeman, M. (author)
In this work, we present the application of poly-Si carrier-selective passivating contacts (CSPCs) as both polarities in interdigitated back-contacted (IBC) solar cell architectures. We compared two approaches to form a gap between the back-surface field (BSF) and emitter fingers. It is proved that the gaps prepared by both approaches are...
journal article 2018
document
Yang, G. (author), Guo, Peiqing (author), Procel Moya, P.A. (author), Weeber, A.W. (author), Isabella, O. (author), Zeman, M. (author)
) and deployed them in c-Si solar cells. Transmission electron microscopy analysis...
journal article 2018
document
Yang, G. (author), Zhang, Y. (author), Procel Moya, P.A. (author), Weeber, A.W. (author), Isabella, O. (author), Zeman, M. (author)
Highest conversion efficiency in crystalline silicon (c-Si) solar cells can be enabled by quenching minority carriers' recombination at c-Si/contact interface owing to carrier-selective passivating contacts. With the semi-insulating poly-crystalline silicon (SIPOS, poly-Si) a very good passivation of c-Si surfaces was obtained. We have...
journal article 2017
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