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Transient Metastable Behavior Caused by Magnesium-Doped Zinc Oxide Emitters in CdSeTe/CdTe Solar Cells
Metastable behavior in highly efficient MZO/CdSeTe/CdTe solar cells has been reported previously. Different preconditioning procedures have been studied that are used to recover the performance of the devices. 11 wt% of MgO content in the MZO layer has shown to give optimized photovoltaic parameters...
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| Published in: | IEEE journal of photovoltaics 2023-05, Vol.13 (3), p.1-7 |
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| container_title | IEEE journal of photovoltaics |
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| creator | Togay, Mustafa Greenhalgh, Rachael C. Fiducia, Thomas A. Shimpi, Tushar Sampath, Walajabad Barth, Kurt L. Walls, John M. Bowers, Jake W. |
| description | Metastable behavior in highly efficient MZO/CdSeTe/CdTe solar cells has been reported previously. Different preconditioning procedures have been studied that are used to recover the performance of the devices. 11 wt% of MgO content in the MZO layer has shown to give optimized photovoltaic parameters in the device compared to other MZO compositions. J - V characteristics before preconditioning of the devices with higher MgO content show an " S " shaped behavior, which is removed during preconditioning. However, this recovery remained only for 3 days while the devices were stored under vacuum in the dark. Temperature-dependent J - V and capacitance measurements before and after preconditioning revealed the presence of recombination centers and defect levels at the MZO/absorber interface. Previous studies have shown degradation of MZO occurring if the layer is exposed to ambient atmosphere. Hall effect measurements on the MZO films showed no significant changes after any preconditioning or CdCl 2 treatment. Secondary-ion mass spectrometry images show diffusion of oxygen from the MZO layer into the CdSeTe region after CdCl 2 treatments. This likely enables the MZO to function as a buffer layer since it will increase the carrier concentration due to the formation of oxygen vacancies. As-deposited MZO thin films are insulating. However, the oxygen vacancies in the MZO layer also increase its reactivity and instability. |
| doi_str_mv | 10.1109/JPHOTOV.2023.3243399 |
| format | article |
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Different preconditioning procedures have been studied that are used to recover the performance of the devices. 11 wt% of MgO content in the MZO layer has shown to give optimized photovoltaic parameters in the device compared to other MZO compositions. J - V characteristics before preconditioning of the devices with higher MgO content show an " S " shaped behavior, which is removed during preconditioning. However, this recovery remained only for 3 days while the devices were stored under vacuum in the dark. Temperature-dependent J - V and capacitance measurements before and after preconditioning revealed the presence of recombination centers and defect levels at the MZO/absorber interface. Previous studies have shown degradation of MZO occurring if the layer is exposed to ambient atmosphere. Hall effect measurements on the MZO films showed no significant changes after any preconditioning or CdCl 2 treatment. Secondary-ion mass spectrometry images show diffusion of oxygen from the MZO layer into the CdSeTe region after CdCl 2 treatments. This likely enables the MZO to function as a buffer layer since it will increase the carrier concentration due to the formation of oxygen vacancies. As-deposited MZO thin films are insulating. However, the oxygen vacancies in the MZO layer also increase its reactivity and instability.</description><identifier>ISSN: 2156-3381</identifier><identifier>EISSN: 2156-3403</identifier><identifier>DOI: 10.1109/JPHOTOV.2023.3243399</identifier><identifier>CODEN: IJPEG8</identifier><language>eng</language><publisher>Piscataway: IEEE</publisher><subject>Annealing ; Atmospheric measurements ; Behavioral sciences ; Buffer layers ; Cadmium chloride ; Carrier density ; CdCl<sub xmlns:ali="http://www.niso.org/schemas/ali/1.0/" xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">2 treatment ; CdSeTe ; CdTe ; degradation ; Diffusion layers ; emitter ; Emitters ; Hall effect ; II-VI semiconductor materials ; light soaking ; Magnesium oxide ; magnesium-doped zinc oxide (MZO) ; metastability ; Oxygen ; parallel dipole line (PDL) Hall system ; Performance evaluation ; Photovoltaic cells ; Photovoltaic systems ; Preconditioning ; Secondary ion mass spectrometry ; secondary-ion mass spectrometry (SIMS) ; Solar cells ; Temperature dependence ; Temperature measurement ; Thin films ; window layer ; Zinc oxide</subject><ispartof>IEEE journal of photovoltaics, 2023-05, Vol.13 (3), p.1-7</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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Different preconditioning procedures have been studied that are used to recover the performance of the devices. 11 wt% of MgO content in the MZO layer has shown to give optimized photovoltaic parameters in the device compared to other MZO compositions. J - V characteristics before preconditioning of the devices with higher MgO content show an " S " shaped behavior, which is removed during preconditioning. However, this recovery remained only for 3 days while the devices were stored under vacuum in the dark. Temperature-dependent J - V and capacitance measurements before and after preconditioning revealed the presence of recombination centers and defect levels at the MZO/absorber interface. Previous studies have shown degradation of MZO occurring if the layer is exposed to ambient atmosphere. Hall effect measurements on the MZO films showed no significant changes after any preconditioning or CdCl 2 treatment. Secondary-ion mass spectrometry images show diffusion of oxygen from the MZO layer into the CdSeTe region after CdCl 2 treatments. This likely enables the MZO to function as a buffer layer since it will increase the carrier concentration due to the formation of oxygen vacancies. As-deposited MZO thin films are insulating. However, the oxygen vacancies in the MZO layer also increase its reactivity and instability.</description><subject>Annealing</subject><subject>Atmospheric measurements</subject><subject>Behavioral sciences</subject><subject>Buffer layers</subject><subject>Cadmium chloride</subject><subject>Carrier density</subject><subject>CdCl<sub xmlns:ali="http://www.niso.org/schemas/ali/1.0/" xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">2 treatment</subject><subject>CdSeTe</subject><subject>CdTe</subject><subject>degradation</subject><subject>Diffusion layers</subject><subject>emitter</subject><subject>Emitters</subject><subject>Hall effect</subject><subject>II-VI semiconductor materials</subject><subject>light soaking</subject><subject>Magnesium oxide</subject><subject>magnesium-doped zinc oxide (MZO)</subject><subject>metastability</subject><subject>Oxygen</subject><subject>parallel dipole line (PDL) Hall system</subject><subject>Performance evaluation</subject><subject>Photovoltaic cells</subject><subject>Photovoltaic systems</subject><subject>Preconditioning</subject><subject>Secondary ion mass spectrometry</subject><subject>secondary-ion mass spectrometry (SIMS)</subject><subject>Solar cells</subject><subject>Temperature dependence</subject><subject>Temperature measurement</subject><subject>Thin films</subject><subject>window layer</subject><subject>Zinc oxide</subject><issn>2156-3381</issn><issn>2156-3403</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>ESBDL</sourceid><recordid>eNpNkE1Lw0AQhoMoWGr_QQ8LnlP3O9mjxmqVlgiNHrwsm2SiW9Kk7iZi_70preBcZhjeD3iCYErwjBCsbp5fFmmWvs0opmzGKGdMqbNgRImQIeOYnf_dLCaXwcT7DR5GYiElHwVV5kzjLTQdWkFnfGfyGtAdfJpv2zqUmN5DifI9WpmPBrztt-F9uxte77YpUPpjS0Dzre06cB7ZBiXlGjK4ScoM0LqtzRABde2vgovK1B4mpz0OXh_mWbIIl-njU3K7DAvGZReKgpMIM6o4JzzOhSxNARUVGFgUAcOSEhB5JElZFaRicaUEI5QXsSTKKKnYOLg-5u5c-9WD7_Sm7V0zVGoaY04Ix5EYVPyoKlzrvYNK75zdGrfXBOsDVH2Cqg9Q9QnqYJsebRYA_lmwiAhV7BeNfnHi</recordid><startdate>20230501</startdate><enddate>20230501</enddate><creator>Togay, Mustafa</creator><creator>Greenhalgh, Rachael C.</creator><creator>Fiducia, Thomas A.</creator><creator>Shimpi, Tushar</creator><creator>Sampath, Walajabad</creator><creator>Barth, Kurt L.</creator><creator>Walls, John M.</creator><creator>Bowers, Jake W.</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Different preconditioning procedures have been studied that are used to recover the performance of the devices. 11 wt% of MgO content in the MZO layer has shown to give optimized photovoltaic parameters in the device compared to other MZO compositions. J - V characteristics before preconditioning of the devices with higher MgO content show an " S " shaped behavior, which is removed during preconditioning. However, this recovery remained only for 3 days while the devices were stored under vacuum in the dark. Temperature-dependent J - V and capacitance measurements before and after preconditioning revealed the presence of recombination centers and defect levels at the MZO/absorber interface. Previous studies have shown degradation of MZO occurring if the layer is exposed to ambient atmosphere. Hall effect measurements on the MZO films showed no significant changes after any preconditioning or CdCl 2 treatment. Secondary-ion mass spectrometry images show diffusion of oxygen from the MZO layer into the CdSeTe region after CdCl 2 treatments. This likely enables the MZO to function as a buffer layer since it will increase the carrier concentration due to the formation of oxygen vacancies. As-deposited MZO thin films are insulating. However, the oxygen vacancies in the MZO layer also increase its reactivity and instability.</abstract><cop>Piscataway</cop><pub>IEEE</pub><doi>10.1109/JPHOTOV.2023.3243399</doi><tpages>7</tpages><orcidid>https://orcid.org/0000-0001-5840-2158</orcidid><orcidid>https://orcid.org/0000-0003-1561-7970</orcidid><orcidid>https://orcid.org/0000-0001-7632-1140</orcidid><orcidid>https://orcid.org/0000-0003-4868-2621</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Annealing Atmospheric measurements Behavioral sciences Buffer layers Cadmium chloride Carrier density CdCl<sub xmlns:ali="http://www.niso.org/schemas/ali/1.0/" xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">2 treatment CdSeTe CdTe degradation Diffusion layers emitter Emitters Hall effect II-VI semiconductor materials light soaking Magnesium oxide magnesium-doped zinc oxide (MZO) metastability Oxygen parallel dipole line (PDL) Hall system Performance evaluation Photovoltaic cells Photovoltaic systems Preconditioning Secondary ion mass spectrometry secondary-ion mass spectrometry (SIMS) Solar cells Temperature dependence Temperature measurement Thin films window layer Zinc oxide |
| title | Transient Metastable Behavior Caused by Magnesium-Doped Zinc Oxide Emitters in CdSeTe/CdTe Solar Cells |
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