Frank Huster scite author profile

This work investigates how the thickness of the polysilicon layer and temperatures during contact sintering influence the properties of SiOx/polysilicon passivated contacts. The n+ polysilicon layers deposited by low‐pressure chemical vapor deposition (LPCVD) on top of a thin wet chemically grown interface oxide layer providing chemical and field‐effect passivation on n‐type monocrystalline silicon wafers are investigated. Three different polysilicon layer thicknesses of 50, 100, and 150 nm are considered in this work. A high level of passivation with implied Voc values above 735 mV and J01 below 5 fA cm−2 is obtained for symmetric lifetime test samples. These samples are used to investigate the interaction of the silver paste with the polysilicon layer at different fast firing peak temperatures. Reduction in polysilicon layer thickness leads to an increase in contact resistivity as well as in J0met. Excellent J0met values of the order of J01 with contact resistivity values below 2 mΩ cm2 are obtained for samples with polysilicon layers of 100 and 150 nm thickness.

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Industrially attractive front contact formation methods for mechanically V-textured multicrystalline silicon solar cells

Spiegel

Gerhards

Huster

et al. 2002

Solar Energy Materials and Solar Cells

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Uniaxial pressure dependence of the Néel temperature in CeCu5.8Au0.2

Sieck

Huster

Löhneysen

1997

Physica B: Condensed Matter

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Frank Huster

Physical understanding of printed thick-film front contacts of crystalline Si solar cells—Review of existing models and recent developments

Non-Fermi-liquid behavior in strongly correlated electron systems

Influence of Polysilicon Thickness on Properties of Screen‐Printed Silver Paste Metallized Silicon Oxide/Polysilicon Passivated Contacts

Industrially attractive front contact formation methods for mechanically V-textured multicrystalline silicon solar cells

Uniaxial pressure dependence of the Néel temperature in CeCu5.8Au0.2

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