A model for phosphosilicate glass deposition via POCl<sub>3</sub> for control of phosphorus dose in Si

Chen, Renyu; Wagner, Hannes; Dastgheib-Shirazi, Amir; Kessler, Michael; Zhu, Zihua; Shutthanandan, Vaithiyalingam; Altermatt, Pietro P.; Dunham, Scott T.

Publikation:
A model for phosphosilicate glass deposition via POCl₃ for control of phosphorus dose in Si

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2012

Autor:innen

Chen, Renyu

Wagner, Hannes

Dastgheib-Shirazi, Amir

Kessler, Michael

Zhu, Zihua

Shutthanandan, Vaithiyalingam

Altermatt, Pietro P.

Dunham, Scott T.

DOI (zitierfähiger Link)

https://doi.org/10.1063/1.4771672

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Physik: Publikationen

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Journal of Applied Physics. American Institute of Physics (AIP). 2012, 112(12), 124912. ISSN 0021-8979. eISSN 1089-7550. Available under: doi: 10.1063/1.4771672

Zusammenfassung

Effective control of the dose of diffused phosphorus emitter profiles is crucial for optimization of crystalline silicon solar cells, but it requires detailed understanding of the POCl₃ doping process. We measure concentration profiles within the deposited phosphosilicate glass (PSG) layer for a range of POCl₃ doping conditions and find that (i) its composition is nearly independent of process conditions and (ii) it is separated from Si by a thin SiO₂ layer. We also find strong accumulation of P at the SiO₂-Si interface. As common linear-parabolic models cannot fully explain the observed kinetics of PSG thickness and phosphorus dose in Si, we present an improved model including oxygen depletion and dose saturation, giving a better explanation of the experimental data. In contrast to previous models that adjust the peak phosphorus concentration at the Si surface to match the measured profiles, our models accurately predict the time-dependent dose behavior under different experimental conditions. We further couple this growth model with previously reported phosphorus diffusion and deactivation models in silicon, providing full modeling of the POCl₃ doping process.

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CHEN, Renyu, Hannes WAGNER, Amir DASTGHEIB-SHIRAZI, Michael KESSLER, Zihua ZHU, Vaithiyalingam SHUTTHANANDAN, Pietro P. ALTERMATT, Scott T. DUNHAM, 2012. A model for phosphosilicate glass deposition via POCl₃ for control of phosphorus dose in Si. In: Journal of Applied Physics. American Institute of Physics (AIP). 2012, 112(12), 124912. ISSN 0021-8979. eISSN 1089-7550. Available under: doi: 10.1063/1.4771672

BibTex

@article{Chen2012-12-15model-48598,
  year={2012},
  doi={10.1063/1.4771672},
  title={A model for phosphosilicate glass deposition via POCl<sub>3</sub> for control of phosphorus dose in Si},
  number={12},
  volume={112},
  issn={0021-8979},
  journal={Journal of Applied Physics},
  author={Chen, Renyu and Wagner, Hannes and Dastgheib-Shirazi, Amir and Kessler, Michael and Zhu, Zihua and Shutthanandan, Vaithiyalingam and Altermatt, Pietro P. and Dunham, Scott T.},
  note={Article Number: 124912}
}

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    <dcterms:abstract xml:lang="eng">Effective control of the dose of diffused phosphorus emitter profiles is crucial for optimization of crystalline silicon solar cells, but it requires detailed understanding of the POCl&lt;sub&gt;3&lt;/sub&gt; doping process. We measure concentration profiles within the deposited phosphosilicate glass (PSG) layer for a range of POCl&lt;sub&gt;3&lt;/sub&gt; doping conditions and find that (i) its composition is nearly independent of process conditions and (ii) it is separated from Si by a thin SiO&lt;sub&gt;2&lt;/sub&gt; layer. We also find strong accumulation of P at the SiO&lt;sub&gt;2&lt;/sub&gt;-Si interface. As common linear-parabolic models cannot fully explain the observed kinetics of PSG thickness and phosphorus dose in Si, we present an improved model including oxygen depletion and dose saturation, giving a better explanation of the experimental data. In contrast to previous models that adjust the peak phosphorus concentration at the Si surface to match the measured profiles, our models accurately predict the time-dependent dose behavior under different experimental conditions. We further couple this growth model with previously reported phosphorus diffusion and deactivation models in silicon, providing full modeling of the POCl&lt;sub&gt;3&lt;/sub&gt; doping process.</dcterms:abstract>
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Publikation: A model for phosphosilicate glass deposition via POCl3 for control of phosphorus dose in Si

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Publikation:
A model for phosphosilicate glass deposition via POCl₃ for control of phosphorus dose in Si