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Achieving 23.83% conversion efficiency in silicon heterojunction solar cell with ultra-thin MoO<inf>x</inf> hole collector layer via tailoring (i)a-Si:H/MoO<inf>x</inf> interface
ArticleAbstract: Thin films of transition metal oxides such as molybdenum oxide (MoOx) are attractive for applicationPalabras claves:dipole, fundamental study, industrial approach, Numerical modelling, plasma treatment, silicon heterojunction solar cells, tailoring MoO x, ultra-thin MoO xAutores:Alcañiz A., Cao L., Han C., Isabella O., Mazzarella L., Özkol E., Paul Procel, Santbergen R., Tichelaar F.D., Yan J., Yang G., Yao Z., Zeman M., Zhao Y.Fuentes:scopusDoped hydrogenated nanocrystalline silicon oxide layers for high-efficiency c-Si heterojunction solar cells
ArticleAbstract: Hydrogenated nanocrystalline silicon oxide (nc-SiOx:H) layers exhibit promising optoelectrical propePalabras claves:carrier-selective-contacts (CSCs), Hydrogenated nanocrystalline silicon oxide (nc-SiO :H) x, interface treatments, optoelectrical properties, Silicon heterojunction (SHJ)Autores:Han C., Isabella O., Mazzarella L., Paul Procel, Weeber A., Yang G., Zeman M., Zhao Y.Fuentes:scopusEffects of (i)a-Si:H deposition temperature on high-efficiency silicon heterojunction solar cells
ArticleAbstract: Excellent surface passivation induced by (i)a-Si:H is critical to achieve high-efficiency silicon hePalabras claves:FTIR, intrinsic amorphous silicon, Passivation, silicon heterojunction solar cellsAutores:Cao L., Han C., Isabella O., Mazzarella L., Paul Procel, Smets A.H.M., Weeber A., Yang G., Yao Z., Zeman M., Zhao Y.Fuentes:scopusOxygen-alloyed poly-Si passivating contacts for high-thermal budget c-Si heterojunction solar cells
ArticleAbstract: Crystalline silicon solar cells with passivating contacts based on doped poly-Si exhibit high opticaPalabras claves:Autores:Han C., Isabella O., Mazzarella L., Paul Procel, Singh M., Yang G., Zeman M., Zhao Y.Fuentes:scopusTowards bifacial silicon heterojunction solar cells with reduced TCO use
ArticleAbstract: Reducing indium consumption, which is related to the transparent conductive oxide (TCO) use, is a kePalabras claves:bifacial solar cell, Silicon heterojunction solar cell, TCO reduction, transparent conductive oxide (TCO)Autores:Han C., Isabella O., Mazzarella L., Paul Procel, Santbergen R., van Duffelen M., Yang G., Zeman M., Zhang X., Zhao Y.Fuentes:scopusUltra-thin electron collectors based on nc-Si:H for high-efficiency silicon heterojunction solar cells
ArticleAbstract: Low parasitic absorption and high conductivity enable (n)-type hydrogenated nanocrystalline siliconPalabras claves:(n)-type window layers, hydrogenated nanocrystalline silicon, hydrogenated nanocrystalline silicon oxide, opto-electrical properties, ultra-thin (n)-contactAutores:Han C., Isabella O., Mazzarella L., Paul Procel, Tichelaar F.D., Weeber A., Yang G., Zeman M., Zhao Y.Fuentes:scopusStrategy to mitigate the dipole interfacial states in (i)a-Si:H/MoO<inf>x</inf> passivating contacts solar cells
ArticleAbstract: Molybdenum oxide (MoOx) is attractive for applications as hole-selective contact in silicon heterojuPalabras claves:(i)a-Si:H/MoO hole transport contact x, interfacial dipole layer, plasma treatment, TCAD electrical modelingAutores:Alcañiz A., Han C., Isabella O., Kawa E., Mazzarella L., Paul Procel, Taheri P., Tiringer U., Yang G., Zeman M., Zhao Y.Fuentes:scopusThe role of heterointerfaces and subgap energy states on transport mechanisms in silicon heterojunction solar cells
ArticleAbstract: The contact resistivity is a key parameter to reach high conversion efficiency in solar cells, especPalabras claves:charge collection, contact resistivity, interdigitated back contact (IBC), optoelectrical simulations, silicon heterojunction solar cells, trap-assisted tunnelling, tunnellingAutores:Han C., Isabella O., Mazzarella L., Paul Procel, Saez A., Tobon C.R., Xu H., Yang G., Zeman M., Zhao Y.Fuentes:scopus