Effect of Microstructure on the Photoactivity of Thin Film CdSe
CdSe is increasingly being used as a Se source in CdSeTe/CdTe photovoltaic device fabrication. In this paper, a CdSe thin film has been deposited by sputtering These films have then been subject to a CdCl 2 activation treatment. The as deposited and treated films have then been characterized with XR...
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| Published in | 2022 IEEE 49th Photovoltaics Specialists Conference (PVSC) pp. 0900 - 0903 |
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| Main Authors | , , , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
05.06.2022
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.1109/PVSC48317.2022.9938834 |
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| Abstract | CdSe is increasingly being used as a Se source in CdSeTe/CdTe photovoltaic device fabrication. In this paper, a CdSe thin film has been deposited by sputtering These films have then been subject to a CdCl 2 activation treatment. The as deposited and treated films have then been characterized with XRD, EBSD, TEM, EDX and PL to analyse the relationship between photoactivity and the microstructural changes that occur during CdCl 2 activation. The as deposited CdSe is photo-inactive, the structure is columnar and is a heavily faulted mix of cubic and hexagonal. Cross-sectional TEM reveals a high density of stacking faults. After the CdCl 2 treatment, CdSe is photoactive and the microstructure is clearly hexagonal and indexes well in EBSD. The stacking faults are removed. It is important that thin film CdSe at the front of the device is photoactive. It must be fully exposed to the cadmium chloride process and recrystallized if its use as a source of Se in devices is to be successful. Untreated CdSe will have a detrimental effect on device performance. |
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| AbstractList | CdSe is increasingly being used as a Se source in CdSeTe/CdTe photovoltaic device fabrication. In this paper, a CdSe thin film has been deposited by sputtering These films have then been subject to a CdCl 2 activation treatment. The as deposited and treated films have then been characterized with XRD, EBSD, TEM, EDX and PL to analyse the relationship between photoactivity and the microstructural changes that occur during CdCl 2 activation. The as deposited CdSe is photo-inactive, the structure is columnar and is a heavily faulted mix of cubic and hexagonal. Cross-sectional TEM reveals a high density of stacking faults. After the CdCl 2 treatment, CdSe is photoactive and the microstructure is clearly hexagonal and indexes well in EBSD. The stacking faults are removed. It is important that thin film CdSe at the front of the device is photoactive. It must be fully exposed to the cadmium chloride process and recrystallized if its use as a source of Se in devices is to be successful. Untreated CdSe will have a detrimental effect on device performance. |
| Author | Bliss, Martin Greenhalgh, Rachael Walls, Michael Kornienko, Vladislav Bowers, Jake Morris, Kerrie Abbas, Ali |
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| Snippet | CdSe is increasingly being used as a Se source in CdSeTe/CdTe photovoltaic device fabrication. In this paper, a CdSe thin film has been deposited by sputtering... |
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| SubjectTerms | CdSe CdSeTe CdTe II-VI semiconductor materials Microstructure Performance evaluation Photoactive Photovoltaic systems Solar Photovoltaics Stacking Thin Film X-ray scattering |
| Title | Effect of Microstructure on the Photoactivity of Thin Film CdSe |
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