Journal article
Molybdenum oxide MoOx: A versatile hole contact for silicon solar cells
J Bullock, A Cuevas, T Allen, C Battaglia
Applied Physics Letters | AMER INST PHYSICS | Published : 2014
DOI: 10.1063/1.4903467
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 J0c and the contact resistivity ρc. Contacts made to p-type wafers and p+ diffused regions achieve optimum ρc values of 1 and 0.2 mΩ·cm2, respectively, and both result in a J0c 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-t..
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Funding Acknowledgements
The authors wish to thank Lachlan Black and Benedicte Demaurex for fruitful discussions. This project was partially funded by The Australian Renewable Energy Agency. Equipment at the Australian National Fabrication Facility was utilised for this project.