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Fabrication and modeling of high-efficiency front junction n-type silicon solar cells with tunnel oxide passivating back contact

: Rohatgi, A.; Rounsaville, B.; Ok, Y.-W.; Tam, A.M.; Zimbardi, F.; Upadhyaya, A.D.; Tao, Y.; Madani, K.; Richter, A.; Benick, J.; Hermle, M.


IEEE Journal of Photovoltaics 7 (2017), No.5, pp.1236-1243
ISSN: 2156-3381
ISSN: 2156-3403
Journal Article
Fraunhofer ISE ()
Solarzellen - Entwicklung und Charakterisierung; Photovoltaik; Silicium-Photovoltaik; Hocheffiziente Solarzelle

This paper reports on in-depth understanding, modeling, and fabrication of 23.8% efficient 4 cm2 n-type Float Zone (FZ) silicon cells with a selective boron emitter and photolithography contact on front and tunnel oxide passivating contact on the back. Tunnel oxide passivating contact composed of a very thin chemically grown silicon oxide (∼15 Å) capped with plasma-enhanced chemical vapor deposition (PECVD) grown 20 nm n+ poly Si gave excellent surface passivation and carrier selectivity with very low saturation current density (∼5 fA/cm2). A high-quality boron selective emitter was formed using ion implantation and solid source diffusion to minimize metal recombination and emitter saturation current density. Process optimization resulted in a cell Voc of 712 mV, Jsc of 41.2 mA/cm2, and FF of 0.811. A simple methodology is used to model these cells which replaces tunnel oxide passivating contact region by electron and hole recombination velocities extracted from measured saturation current density of tunnel oxide passivating contact region and analysis. Using this approach and two-dimensional device modeling gave an excellent match between the measured and simulated cell parameters and efficiency, supporting excellent passivation and carrier selectivity of these contacts. Extended simulations showed that 26% cell efficiency can be achieved with this cell structure by further optimization of wafer quality, emitter profile, and contact design.