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Molybdenum oxide MoOₓ: a versatile hole contact for silicon solar cells

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Authors

Bullock, James
Cuevas, Andres
Allen, Thomas
Battaglia, Corsin

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American Institute of Physics (AIP)

Abstract

This letter examines the application of transparent MoOₓ (x < 3) films deposited by thermal evaporation directly onto crystalline silicon (c-Si) to create hole-conducting contacts for silicon solar cells. The carrier-selectivity of MoOₓ based contacts on both n- and p-type surfaces is evaluated via simultaneous consideration of the contact recombination parameter J oc and the contact resistivity ρ c. Contacts made to p-type wafers and p⁺ diffused regions achieve optimum ρ c values of 1 and 0.2 mΩ·cm², respectively, and both result in a Joc of ∼200 fA/cm². These values suggest that significant gains can be made over conventional hole contacts to p-type material. Similar MoOₓ contacts made to n-type silicon result in higher Joc and ρc with optimum values of ∼300 fA/cm² and 30 mΩ·cm² but still offer significant advantages over conventional approaches in terms of contact passivation, optical properties, and device fabrication.

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Applied Physics Letters

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