Journal article
Superacid-Treated Silicon Surfaces: Extending the Limit of Carrier Lifetime for Photovoltaic Applications
NE Grant, T Niewelt, NR Wilson, EC Wheeler-Jones, J Bullock, M Al-Amin, MC Schubert, AC Van Veen, A Javey, JD Murphy
IEEE Journal of Photovoltaics | IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC | Published : 2017
Abstract
Minimizing carrier recombination at interfaces is of extreme importance in the development of high-efficiency photovoltaic devices and for bulk material characterization. Here, we investigate a temporary room temperature superacid-based passivation scheme, which provides surface recombination velocities below 1 cm/s, thus placing our passivation scheme amongst state-of-the-art dielectric films. Application of the technique to high-quality float-zone silicon allows the currently accepted intrinsic carrier lifetime limit to be reached and calls its current parameterization into doubt for 1 Ω·cm n-type wafers. The passivation also enables lifetimes up to 65 ms to be measured in high-resistivity..
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Awarded by Engineering and Physical Sciences Research Council
Funding Acknowledgements
This work was supported in part by the EPSRC SuperSilicon PV project (EP/M024911/1), in part by the EPSRC Global Challenges Research Fund (EP/P511079/1), in part by the EPSRC First Grant (EP/J01768X/2), and in part by the Royal Society (RG100076).