Skip to main content

Research Repository

Advanced Search

Outputs (8)

Efficiency improvement in thin-film solar cell devices with oxygen-containing absorber layer (2005)
Journal Article
Emziane, M., Durose, K., Halliday, D., Bosio, A., & Romeo, N. (2005). Efficiency improvement in thin-film solar cell devices with oxygen-containing absorber layer. Applied Physics Letters, 87(26), Article 261901. https://doi.org/10.1063/1.2152108

The CdTe∕CdSCdTe∕CdSsolar cell devices were grown using a dry process consisting of sputtering for the transparent conducting oxide and CdS window layers, and close-space sublimation for CdTe absorber layer. These devices were back contacted using Mo... Read More about Efficiency improvement in thin-film solar cell devices with oxygen-containing absorber layer.

Does CdTe deposition affect the impurity profile in sputtered CdS window layers? (2005)
Book Chapter
Emziane, M., Durose, K., Halliday, D., Bosio, A., & Romeo, N. (2005). Does CdTe deposition affect the impurity profile in sputtered CdS window layers?. In W. Gessert, T. Niki, S. Siebentritt, & S. Shafarman (Eds.), Thin-Film Compound Semiconductor Photovoltaics (411-416)

We report a multi-element study of impurities in CdS window layers by dynamic and quantitative SIMS. Two CdS/TCO/glass samples, grown separately using nominally the same conditions, were considered. In2O3:F grown on soda lime glass was used as TCO fo... Read More about Does CdTe deposition affect the impurity profile in sputtered CdS window layers?.

Role of substrate and transparent conducting oxide in impurity evolvement in polycrystalline thin-film devices (2005)
Journal Article
Emziane, M., Durose, K., Halliday, D., Bosio, A., & Romeo, N. (2005). Role of substrate and transparent conducting oxide in impurity evolvement in polycrystalline thin-film devices. Applied Physics Letters, 87(25), https://doi.org/10.1063/1.2149990

A comparison of as-grown and processed CdTe/CdS solar cell structures deposited on sapphire substrate has been undertaken with those grown on glass. The device structures were depth-profiled using quantitative secondary ion mass spectrometry. It was... Read More about Role of substrate and transparent conducting oxide in impurity evolvement in polycrystalline thin-film devices.

The distribution of impurities in the interfaces and window layers of thin-film solar cells (2005)
Journal Article
Emziane, M., Durose, K., Halliday, D., Romeo, N., & Bosio, A. (2005). The distribution of impurities in the interfaces and window layers of thin-film solar cells. Journal of Applied Physics, 97(11), Article 114910. https://doi.org/10.1063/1.1921344

We report a systematic multielement study of impurities in CdS window layers by dynamic and quantitative secondary-ion-mass spectrometry (SIMS) with high depth resolution. The study was carried out on CdTe/CdS solar cell structures, with the glass su... Read More about The distribution of impurities in the interfaces and window layers of thin-film solar cells.

A combined SIMS and ICPMS investigation of the origin and distribution of potentially electrically active impurities in CdTe/CdS solar cell structures (2005)
Journal Article
Emziane, M., Durose, K., Romeo, N., Bosio, A., & Halliday, D. (2005). A combined SIMS and ICPMS investigation of the origin and distribution of potentially electrically active impurities in CdTe/CdS solar cell structures. Semiconductor Science and Technology, 20(5), 434-442. https://doi.org/10.1088/0268-1242/20/5/019

Quantitative, dynamic secondary ion mass spectrometry (SIMS) combined with inductively coupled plasma mass spectrometry (ICPMS) was used to study the origin and distribution of impurities in CdTe/CdS/In2O3:F/glass solar cell structures. Particular em... Read More about A combined SIMS and ICPMS investigation of the origin and distribution of potentially electrically active impurities in CdTe/CdS solar cell structures.