Browsing by Author "Boccard, M."
Now showing items 1-12 of 12
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25.1%-Efficient Monolithic Perovskite/Silicon Tandem Solar Cell Based on a p-type Monocrystalline Textured Silicon Wafer and High-Temperature Passivating Contacts
Nogay, G.; Sahli, F.; Werner, J.; Monnard, R.; Boccard, M.; Despeisse, M.; et al. (2019)A monolithic two-terminal perovskite/silicon tandem solar cell based on an industrial, high-temperature tolerant p-type crystalline silicon bottom cell with a steady-state power conversion efficiency of 25.1% is demonstrated. -
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) -
Design Rules to Fully Benefit from Bifaciality in Two-Terminal Perovskite/Silicon Tandem Solar Cells
Dupre, O.; Tuomiranta, A.; Jeangros, Q.; Boccard, M.; Alet, P.-J.; Ballif, C. (2020-03) -
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) -
Lateral transport in silicon solar cells
Haschke, J.; Christmann, G.; Messmer, C.; Bivour, M.; Boccard, M.; Ballif, C. (2020-03) -
Palliating the efficiency loss due to shunting in perovskite/silicon tandem solar cells through modifying the resistive properties of the recombination junction
Blaga, C.; Christmann, G.; Boccard, M.; Ballif, C.; Nicolay, S.; Kamino, B. A. (2021-01) -
Reassessment of Cell to Module Gains and Losses: Accounting for the Current Boost Specific to Cells Located on the Edges
Dupre, O.; Levrat, J.; Champliaud, J.; Despeisse, M.; Boccard, M.; Ballif, C. (2018)The power produced by a photovoltaic module is not simply the sum of the powers of its constituents cells. The difference stems from a number of so-called 'cell-to-module' (CTM) gain or loss mechanisms. These are getting ... -
The amazing improvement of silicon heterojunction technology: ready for a true mass market launch
Ballif, C.; Boccard, M.; Despeisse, M. (2018)Silicon heterojunction solar cells have less manufacturing steps and have allowed achieving higher efficiency than PERC cells. However the market has been slow in taking up the technology. Here we discuss some of the ... -
Toward Annealing-Stable Molybdenum-Oxide-Based Hole-Selective Contacts For Silicon Photovoltaics
Essig, S.; Dreon, J.; Rucavado, E.; Mews, M.; Koida, T.; Boccard, M.; et al. (2018)Molybdenum oxide (MoOX) combines a high work function with broadband optical transparency. Sandwiched between a hydrogenated intrinsic amorphous silicon passivation layer and a transparent conductive oxide, this material ... -
Transferability of the light-soaking benefits on silicon heterojunction cells to module
Cattin, J.; Petri, D.; Geissbuhler, J.; Despeisse, M.; Ballif, C.; Boccard, M. (2022-12) -
Transferability of the light-soaking benefits on silicon heterojunction cells to modules
Cattin, J.; Petri, D.; Geissbühler, J.; Despeisse, M.; Ballif, C.; Boccard, M. (2021-07)