Investigation of Anti-Reflection-Coating Stacks for Silicon Heterojunction Solar Cells

“…Considering the change in current for the samples before and after disk deposition, the increase is even more decisive with 4.1 mA/cm 2 (+14.0% rel ). Another benchmark would be a double ARC stack, consisting of a MgF 2 layer on top of the ITO layer (each with optimized thickness), for which we estimate a current density increase of 1.5 mA/cm 2 (+4.7% rel ) compared to the standard flat ARC , (see SI, Figure S7 for reflectance and details). However, the effect of encapsulation of the solar cell in a module tends to annihilate the advantage of the double ARC, while this is not the case for an optimized disk structure .…”

Antireflective Huygens’ Metasurface with Correlated Disorder Made from High-Index Disks Implemented into Silicon Heterojunction Solar Cells

“…Considering the change in current for the samples before and after disk deposition, the increase is even more decisive with 4.1 mA/cm 2 (+14.0% rel ). Another benchmark would be a double ARC stack, consisting of a MgF 2 layer on top of the ITO layer (each with optimized thickness), for which we estimate a current density increase of 1.5 mA/cm 2 (+4.7% rel ) compared to the standard flat ARC , (see SI, Figure S7 for reflectance and details). However, the effect of encapsulation of the solar cell in a module tends to annihilate the advantage of the double ARC, while this is not the case for an optimized disk structure .…”

Antireflective Huygens’ Metasurface with Correlated Disorder Made from High-Index Disks Implemented into Silicon Heterojunction Solar Cells