Elmar Lohmüller scite author profile

This work investigates sintered, screen-printed silver contacts on lowly doped p-type silicon with different intermediate dielectric layer systems using scanning electron microscopy and dark current-voltage measurements. The data reveal electron tunneling through a thin insulating layer as the most probable transport mechanism. A model based on Fowler-Nordheim and direct tunneling is presented that allows for the description of reverse current-voltage characteristics and the extraction of effective contact properties. The investigated screen-printed metal insulator semiconductor structures are proposed as solar cell integrated bypass that reduces the risk of hot spot generation and power loss during partial shading of a module. Furthermore, the integrated bypass approach enables the fabric ation of solar cells from silicon material that tends to show early breakdown of the p-n-junction

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Impact of boron doping profiles on the specific contact resistance of screen printed Ag–Al contacts on silicon

Lohmüller

Werner

Hoenig

et al. 2015

Solar Energy Materials and Solar Cells

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Extending the limits of screen-printed metallization of phosphorus- and boron-doped surfaces

Werner

Lohmüller

Aßmus

et al. 2016

Solar Energy Materials and Solar Cells

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