Mostrando 7 resultados de: 7
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Solar Energy Materials and Solar Cells(2)
12th AEIT International Annual Conference, AEIT 2020(1)
Journal of Applied Physics(1)
Nano Research(1)
Optics Express(1)
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Fotovoltaica(5)
Energía(4)
Ciencia de materiales(3)
Celda solar(1)
Ingeniería electrónica(1)
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scopus(7)
Analysis of Transition Metal Oxides based Heterojunction Solar Cells with S-shaped J-V curves
Conference ObjectAbstract: The use of transition metal oxides for the selective carrier contact in the crystalline silicon solaPalabras claves:Heterojunction, pulsed laser deposition, s-shape, solar cells, transition metal oxidesAutores:Bonadonna M., Crupi I., Isabella O., MacAluso R., Mosca M., Paul Procel, Scire D., Zeman M., Zhao Y.Fuentes:scopusAdvanced method for electrical characterization of carrier-selective passivating contacts using transfer-length-method measurements under variable illumination
ArticleAbstract: Carrier-selective passivating contacts have been demonstrated to be crucial to reach the practical ePalabras claves:Autores:Allebé C., Badel N., Ballif C., Boccard M., Christmann G., Descoeudres A., Despeisse M., Geissbühler J., Isabella O., Nicolay S., Paul Procel, Paviet-Salomon B., Senaud L.L., Wyss P., Zeman M.Fuentes:scopusOptical study of back-contacted CIGS solar cells
ArticleAbstract: A novel back-contacted solar cell based on a submicron copper indium gallium (di)selenide (CIGS) absPalabras claves:Autores:Isabella O., Paul Procel, Rezaei N., Vroon Z., Zeman M.Fuentes:scopusSilicon Solar Cell Architecture with Front Selective and Rear Full Area Ion-Implanted Passivating Contacts
ArticleAbstract: In this work, the application of carrier-selective passivating contacts based on tunneling silicon-dPalabras claves:front surface field passivation, ion-implantation, Poly-silicon passivating contacts, silicon, solar cellsAutores:Dijkslag H., Ingenito A., Isabella O., Limodio G., Paul Procel, Yang G., Zeman M.Fuentes:scopusRoom-temperature sputtered tungsten-doped indium oxide for improved current in silicon heterojunction solar cells
ArticleAbstract: The window layers limit the performance of silicon heterojunction (SHJ) solar cells with front and bPalabras claves:Improved near-infrared response, Room temperature transparent electrode, Silicon heterojunction solar cell, Tungsten-doped indium oxideAutores:Han C., Isabella O., Mazzarella L., Montes A., Paul Procel, Santbergen R., Yang G., Zeman M., Zhang X., Zhao Y.Fuentes:scopusSub-gap defect density characterization of molybdenum oxide: An annealing study for solar cell applications
ArticleAbstract: The application of molybdenum oxide in the photovoltaic field is gaining traction as this material cPalabras claves:density of states, molybdenum oxide, polaron theory, Silicon heterojunction solar cellAutores:Crupi I., Gulino A., Isabella O., Paul Procel, Scire D., Zeman M.Fuentes:scopusThe fundamental operation mechanisms of nc-SiO<inf>X≥0</inf>:H based tunnel recombination junctions revealed
ArticleAbstract: Two terminal multi-junction (MJ) photovoltaic (PV) devices are well established concepts to increasePalabras claves:Amorphous silicon, Amorphous silicon germanium, Multijunction, Nano-crystalline silicon, Silicon heterojunction, Tandem PV, Thin film silicon, Tunnel recombination junctionAutores:de Vrijer T., Isabella O., Parasramka H., Paul A. Procel Moya, Smets A.H.M., van Nijen D., Zhao Y.Fuentes:scopus