Browsing by Author "Antognini, L."
Now showing items 1-5 of 5
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Bottom-up and top-down approaches for identifying and mitigating electrical losses in silicon heterojunction solar cells
Senaud, L. -L.; Christmann, G.; Antognini, L.; Descoeudres, A.; Geissbuhler, J.; Boccard, M.; Paviet-Salomon, B. (2022-07) -
Contact resistivity measurements and their applicability for accurate series resistance breakdown in heterojunction solar cell
Antognini, L.; Senaud, L. -L.; Türkay, D.; Marthey, L.; Dréon, J.; Paviet-Salomon, B.; Ballif, C. (2022-08) -
Effects of Work Function and Electron Affinity on the Performance of Carrier-Selective Contacts in Silicon Solar Cells Using ZnSnx Ge1?xN2 as a Case Study
Fébba, D.; Paratte, V.; Antognini, L.; Dréon, J.; Hurni, J.; Thomet, J.; Rubinger, R.; Bortoni, E.; Ballif, C.; Boccard, M. (2021-09) -
Integration of thin n-type nc-si:H layers in the window-multilayer stack of heterojunction solar cells
Antognini, L.; Sthioul, C.; Dréon, J.; Paratte, V.; Türkay, D.; Senaud, L. -L.; Boccard, M. (2022-12) -
Nanocrystalline Silicon Oxide Stacks for Silicon Heterojunction Solar Cells for Hot Climates
Haschke, J.; Monnard, R.; Antognini, L.; Cattin, J.; Abdallah, A. A.; Aissa, B.; et al. (2018)Today, solar cells are generally optimized for 25 degrees C, whereas in most climates, especially hot and sunny ones, the operating device temperature is usually much higher, e.g. in the range of 60 degrees C. We investigate ...