Unraveling the Impact of Combined NaF/RbF Postdeposition Treatments on the Deeply Buried Cu(In,Ga)Se2/Mo Thin‐Film Solar Cell Interface
Cu(In,Ga)Se2 (CIGSe) is a promising absorber material for thin‐film photovoltaic devices. A key procedure to achieve high efficiencies is the application of alkali fluoride postdeposition treatments (PDT) of the CIGSe surface. While the effects of the PDT on the directly impacted CIGSe front surface...
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| Published in | Advanced Energy and Sustainability Research Vol. 2; no. 11 |
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| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Argonne
Wiley
01.11.2021
John Wiley & Sons, Inc Wiley-VCH |
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| Abstract | Cu(In,Ga)Se2 (CIGSe) is a promising absorber material for thin‐film photovoltaic devices. A key procedure to achieve high efficiencies is the application of alkali fluoride postdeposition treatments (PDT) of the CIGSe surface. While the effects of the PDT on the directly impacted CIGSe front surface have been subject to extensive studies, less is known about the impact on the deeply buried CIGSe/Mo interface. Exposing the CIGSe absorber backside by stripping it off the Mo back contact allows to use surface‐sensitive photoelectron spectroscopy to study the chemical and electronic structure of this interface in unprecedented detail. CIGSe /Mo stacks prepared using NaF only and combined NaF/RbF (with optimal and excess amount of RbF) PDT are studied. Rb is detected accumulating at the backside of the RbF‐treated CIGSe absorbers in conjunction with a depletion of Na. The exposed CIGSe backsides display a Cu‐deficient surface region, with increased presence of Rb correlating with a decreased Cu content. Rb appears to be incorporated into the Cu‐deficient absorber region as previously detected on the front surface. However, in contrast to the front surface, no distinct, secondary RbInSe‐type phase is found at the back surface.
The impact of performance‐enhancing NaF/RbF postdeposition treatments on the deeply buried Cu(In,Ga)Se2/Mo thin‐film solar cell interface is studied by making it accessibly by stripping off the absorber from the back contact. Despite Rb accumulating at this back interface and pronounced Cu deficiency of the Cu(In,Ga)Se2 back surface, in contrast to the Cu(In,Ga)Se2 front surface no RbInSe‐type compound is formed. |
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| AbstractList | Cu(In,Ga)Se2 (CIGSe) is a promising absorber material for thin‐film photovoltaic devices. A key procedure to achieve high efficiencies is the application of alkali fluoride postdeposition treatments (PDT) of the CIGSe surface. While the effects of the PDT on the directly impacted CIGSe front surface have been subject to extensive studies, less is known about the impact on the deeply buried CIGSe/Mo interface. Exposing the CIGSe absorber backside by stripping it off the Mo back contact allows to use surface‐sensitive photoelectron spectroscopy to study the chemical and electronic structure of this interface in unprecedented detail. CIGSe /Mo stacks prepared using NaF only and combined NaF/RbF (with optimal and excess amount of RbF) PDT are studied. Rb is detected accumulating at the backside of the RbF‐treated CIGSe absorbers in conjunction with a depletion of Na. The exposed CIGSe backsides display a Cu‐deficient surface region, with increased presence of Rb correlating with a decreased Cu content. Rb appears to be incorporated into the Cu‐deficient absorber region as previously detected on the front surface. However, in contrast to the front surface, no distinct, secondary RbInSe‐type phase is found at the back surface. Cu(In,Ga)Se2 (CIGSe) is a promising absorber material for thin‐film photovoltaic devices. A key procedure to achieve high efficiencies is the application of alkali fluoride postdeposition treatments (PDT) of the CIGSe surface. While the effects of the PDT on the directly impacted CIGSe front surface have been subject to extensive studies, less is known about the impact on the deeply buried CIGSe/Mo interface. Exposing the CIGSe absorber backside by stripping it off the Mo back contact allows to use surface‐sensitive photoelectron spectroscopy to study the chemical and electronic structure of this interface in unprecedented detail. CIGSe /Mo stacks prepared using NaF only and combined NaF/RbF (with optimal and excess amount of RbF) PDT are studied. Rb is detected accumulating at the backside of the RbF‐treated CIGSe absorbers in conjunction with a depletion of Na. The exposed CIGSe backsides display a Cu‐deficient surface region, with increased presence of Rb correlating with a decreased Cu content. Rb appears to be incorporated into the Cu‐deficient absorber region as previously detected on the front surface. However, in contrast to the front surface, no distinct, secondary RbInSe‐type phase is found at the back surface. The impact of performance‐enhancing NaF/RbF postdeposition treatments on the deeply buried Cu(In,Ga)Se2/Mo thin‐film solar cell interface is studied by making it accessibly by stripping off the absorber from the back contact. Despite Rb accumulating at this back interface and pronounced Cu deficiency of the Cu(In,Ga)Se2 back surface, in contrast to the Cu(In,Ga)Se2 front surface no RbInSe‐type compound is formed. |
| Author | Daniel Abou-Ras Jakob Bombsch Shigenori Ueda Raul Garcia-Diez Romain Carron Regan G. Wilks Evelyn Handick Claudia Hartmann Marcus Bär Enrico Avancini Roberto Félix |
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| Snippet | Cu(In,Ga)Se2 (CIGSe) is a promising absorber material for thin‐film photovoltaic devices. A key procedure to achieve high efficiencies is the application of... |
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| SubjectTerms | Absorbers (materials) back interfaces Buried structures Carbon chalcopyrite thin-film solar cells Copper Copper indium gallium selenides Cu(In Electronic structure Environmental technology. Sanitary engineering Ga)Se2 hard X ray photoelectron spectroscopy ; back interfaces ; chalcopyrite thin film solar cells hard X-ray photoelectron spectroscopy Interfaces Molybdenum Photoelectron spectroscopy Photoelectrons Photovoltaic cells Photovoltaics postdeposition treatment Renewable energy sources Rubidium Sodium fluoride Solar cells Spectrum analysis TD1-1066 Thin films TJ807-830 |
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| Title | Unraveling the Impact of Combined NaF/RbF Postdeposition Treatments on the Deeply Buried Cu(In,Ga)Se2/Mo Thin‐Film Solar Cell Interface |
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